CN112509890A

CN112509890A - Circuit breaker

Info

Publication number: CN112509890A
Application number: CN201910871609.9A
Authority: CN
Inventors: 胡吉庆; 王海渊
Original assignee: Zhejiang Chint Electrics Co Ltd
Current assignee: Zhejiang Chint Electrics Co Ltd
Priority date: 2019-09-16
Filing date: 2019-09-16
Publication date: 2021-03-16

Abstract

The utility model provides a circuit breaker, is including setting up operating device, main contact mechanism and the supplementary contact mechanism in the casing, and operating device includes the support, install switch lever and elasticity torsion piece on the support, the first arm and the leg joint of elasticity torsion piece, the second arm and the switch lever of elasticity torsion piece are connected, it includes the push rod and assists the contact to assist contact mechanism, the push rod contacts with the second arm of elasticity torsion piece, and when operating device drive switch lever drove the action of main contact mechanism, the push rod drove under the drive of elasticity torsion piece and assists the contact action. The on-off of the circuit breaker is completely controlled by the position change of the elastic torsion piece, the resistance of a driving spring is not required to be overcome in the off process, and the burden of an operating mechanism is reduced.

Description

Circuit breaker

Technical Field

The invention relates to a circuit protector, in particular to a circuit breaker.

Background

The auxiliary contact of the existing motor circuit breaker is generally driven by a push rod arranged below an operating mechanism, a push plate which is matched with the push rod is arranged above the push rod, and a driving spring for pushing the push plate is arranged below the push plate. As shown in fig. 4, when the motor breaker is closed, the driving force for closing the main contact and the auxiliary contact is provided by the driving spring, and the driving force drives the push plate to drive the push rod to keep a horizontal state; as shown in fig. 5, when the motor circuit breaker is opened, the operating mechanism drives the switch lever to push the push plate downward, and the push rod rotates downward under the action of the push plate to open the main contact and the auxiliary contact. As can be seen from the above, when the auxiliary contact of the conventional motor circuit breaker is switched from the closed state to the open state, the operating mechanism needs to overcome the resistance of the driving spring, which is not favorable for the breaking of the circuit breaker, and thus the load of the operating mechanism is heavy.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a circuit breaker with simple structure and high reliability.

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

the utility model provides a circuit breaker, is including setting up operating device, main contact mechanism and the supplementary contact mechanism in the casing, and operating device includes the support, install switch lever and elasticity torsion piece on the support, the first arm and the leg joint of elasticity torsion piece, the second arm and the switch lever of elasticity torsion piece are connected, it includes the push rod and assists the contact to assist contact mechanism, the push rod contacts with the second arm of elasticity torsion piece, and when operating device drive switch lever drove the action of main contact mechanism, the push rod drove under the drive of elasticity torsion piece and assists the contact action.

Preferably, the auxiliary contact mechanism further comprises an auxiliary breaking elastic piece for driving the push rod and the elastic torsion piece to move synchronously, one end of the auxiliary breaking elastic piece is connected with the middle part of the push rod, and the other end of the auxiliary breaking elastic piece is fixed in the shell.

Preferably, the auxiliary contact comprises an auxiliary fixed contact, an auxiliary moving contact and a first elastic element, and the auxiliary moving contact is closed or opened with the auxiliary fixed contact under the action of the push rod and the first elastic element.

Preferably, the auxiliary static contact comprises a normally open contact and a normally closed contact which are fixed and arranged oppositely, a first contact and a second contact which are matched with the normally open contact and the normally closed contact are respectively arranged on two sides of the auxiliary moving contact, and the auxiliary moving contact moves between the normally open contact and the normally closed contact under the action of the push rod.

Preferably, the push rod is an L-shaped push rod, one end of the L-shaped push rod is connected with the auxiliary contact, and the other end of the L-shaped push rod is connected with the second arm of the elastic torsion member.

Preferably, the middle part of the push rod is rotatably connected with the shell or the bracket, and two ends of the push rod are respectively connected with the second arm and the auxiliary contact of the elastic torsion piece.

Preferably, the main contact mechanism includes a main contact and a second elastic member, the main contact includes a main fixed contact fixed in the housing and a driving contact matched with the main fixed contact, a pushing portion for being pushed by the switch lever is protruded from one side of the driving contact, and the second elastic member is disposed on the other side of the driving contact.

Preferably, the elastic torsion member is a torsion spring.

Preferably, the switch lever is a triangular switch lever, and each corner of the triangular switch lever serves as a connecting end; the first connecting end of the triangular switch rod is in driving connection with the operating mechanism, the second connecting end of the triangular switch rod is used for being in pivot connection with the support, the third connecting end of the triangular switch rod is connected with the second arm of the elastic torsion piece, and the end part of the third connecting end of the triangular switch rod is used for driving the main contact mechanism to be disconnected.

Preferably, the operating mechanism further comprises a gear, a jump buckle and a lock catch which are arranged on the bracket; the gear is connected with the trip buckle through a first connecting rod, the trip buckle is connected with the lock buckle hasp, the trip buckle is connected with the switch rod through a second connecting rod, the gear rotates towards the closing direction, the trip buckle is locked with the lock buckle, under the action of the first connecting rod and the second connecting rod, the trip buckle drives the switch rod to rotate to the closing position to enable the main contact mechanism and the auxiliary contact mechanism to be closed, and the elastic torsion piece stores elastic potential energy; the gear rotates towards the opening direction, the jump buckle and the lock catch are unlocked, and the elastic torsion piece drives the switch rod to rotate to the opening position under the action of the first connecting rod and the second connecting rod, so that the main contact mechanism and the auxiliary contact mechanism are disconnected.

The closing and opening principles of the auxiliary contact mechanism of the circuit breaker are different from those of the conventional motor circuit breaker, the auxiliary contact mechanism of the circuit breaker is driven to act by the push rod in the deformation energy storage process of the elastic torsion piece, the closing and opening of the auxiliary contact mechanism are completely controlled by the position change of the elastic torsion piece, the auxiliary contact mechanism is driven to act by the push rod, a driving spring in the prior art is not needed, the resistance of the driving spring is not needed to be overcome in the action process, and the burden of an operation mechanism is reduced.

In addition, an auxiliary breaking elastic part is additionally arranged, the push rod and the elastic torsion part can be driven to synchronously move, the push rod is prevented from stopping in a closed state due to the influence of friction force, meanwhile, the pressure on the switch rod can be increased, and the integral breaking of the circuit breaker is facilitated.

Drawings

Fig. 1 is a schematic diagram of the circuit breaker of the present invention when closed;

fig. 2 is a schematic diagram of the circuit breaker of the present invention in an open configuration;

fig. 3 is a schematic view of the structure of a switch lever of the circuit breaker of the present invention;

fig. 4 is a schematic structural diagram of a circuit breaker in the background art when closed;

fig. 5 is a schematic structural diagram of a circuit breaker in the related art when the circuit breaker is opened.

Detailed Description

The following describes the circuit breaker according to the present invention with reference to the embodiments shown in fig. 1 to 5. The circuit breaker of the present invention is not limited to the description of the following embodiments.

The utility model provides a circuit breaker, is including setting up operating device, main contact mechanism and the supplementary contact mechanism in the casing, and operating device includes support 11, install switch lever 4 and elasticity torsion 5 on the support 11, the first arm 51 and the support 11 of elasticity torsion 5 are connected, and the second arm 52 and the switch lever 4 of elasticity torsion 5 are connected, it includes push rod 31 and supplementary contact to assist contact mechanism, push rod 31 contacts with the second arm 52 of elasticity torsion 5, and when operating device drive switch lever 4 drove the action of main contact mechanism, push rod 31 drove the action of supplementary contact under the drive of elasticity torsion 5.

The closing and opening principle of the auxiliary contact mechanism of the circuit breaker is different from that of the existing motor circuit breaker, the auxiliary contact mechanism of the circuit breaker is driven to act by the push rod 31 in the deformation energy storage process of the elastic torsion piece 5, the closing and opening of the auxiliary contact mechanism are completely controlled by the position change of the elastic torsion piece 5, the auxiliary contact mechanism is driven to act by the push rod 31, a driving spring in the prior art is not needed, the resistance of the driving spring is not needed to be overcome in the action process, and the burden of an operating mechanism is reduced.

As shown in fig. 1-2, a motor circuit breaker includes an operating mechanism, a main contact mechanism and an auxiliary contact mechanism, which are disposed in a housing, the operating mechanism includes a bracket 11, the bracket 11 is mounted with a switch lever 4 and an elastic torsion member 5, a first arm 51 of the elastic torsion member 5 is connected with the bracket 11, a second arm 52 of the elastic torsion member 5 is connected with the switch lever 4, specifically, the bracket 11 includes two brackets 11 disposed opposite to each other, only one of the brackets 11 is shown in the figure, the two brackets 11 are connected with each other through a shaft or a rivet, the switch lever 4 is pivotally disposed on the shaft between the two brackets 11, the first arm 51 of the elastic torsion member 5 is mounted on one bracket 11, which is not shown, and it can be understood that the first arm 51 of the elastic torsion member 5 can also be disposed on one bracket 11, which is shown in the figure. The auxiliary contact mechanism comprises a push rod 31 and an auxiliary contact, the push rod 31 is in contact with a second arm 52 of the elastic torsion piece 5, when the operating mechanism drives the switch rod 4 to drive the main contact mechanism to act, the push rod 31 drives the auxiliary contact to act under the driving of the elastic torsion piece 5, the auxiliary contact is detachably connected with the shell of the circuit breaker, and when the auxiliary contact is not needed, the auxiliary contact can be detached. Usually, a plurality of main contact mechanisms are arranged in a shell of the circuit breaker, and an auxiliary contact has a shell, is inserted and arranged on the side wall of the shell of the circuit breaker and is matched with a push rod 31 in the shell. The push rod 31 is arranged in the shell, and the auxiliary contact can be arranged outside the shell as an additional device and operated by the push rod 31, and also can be arranged in the shell and operated by the push rod 31.

In this embodiment, the movement of the push rod 31 is a translational movement, when the operating mechanism drives the switch lever 4 to close the main contact mechanism, the second arm 52 of the elastic torsion member 5 is lifted upwards in the process of compressing and storing energy under the drive of the switch lever 4, the push rod 31 is lifted along with the lifting of the second arm 52 of the elastic torsion member 5, and at this time, the push rod 31 drives the auxiliary contact to close, as shown in fig. 1; when the operating mechanism drives the switch rod 4 to open the main contact, the elastic torsion piece 5 rotates along with the switch rod 4, the second arm 52 of the elastic torsion piece 5 is driven to move downwards in the process of releasing the elastic potential energy, and the push rod 31 moves downwards under the action of the elastic torsion piece 5, so that the auxiliary contact is opened, as shown in fig. 2. Of course, it is obvious that the elastic torsion member 5 can also open the auxiliary contact through the push rod 31 when the switch lever 4 closes the main contact, that is, the push rod 31 can make the main contact and the auxiliary contact respectively in a closed state and an open state when moving synchronously upwards or synchronously downwards under the driving of the elastic torsion member 5, which is not shown in the drawing.

In order to further optimize the disconnection of the auxiliary contact mechanism, an auxiliary disjunction elastic part 6 is preferably arranged in the shell, the auxiliary disjunction elastic part 6 drives the push rod 31 and the elastic torsion part 5 to move synchronously so that the main contact mechanism and the auxiliary contact mechanism are disjointed synchronously, and specifically, one end of the auxiliary disjunction elastic part 6 is connected with the middle part of the push rod 31, and the other end is fixed in the shell. In addition, the auxiliary breaking elastic piece 6 is additionally arranged, so that the push rod 31 and the elastic torsion piece 5 can be driven to synchronously move, the push rod 31 is prevented from staying in a closed state due to the influence of friction force, meanwhile, the pressure on the switch rod 4 can be increased, and the integral breaking of the motor circuit breaker is facilitated.

The main contact mechanism comprises a main contact and a second elastic piece 23, and the switch rod 4 and the second elastic piece 23 respectively provide driving force and resetting force for the main contact. The main contact comprises a main fixed contact 21 fixed in the housing and a main active contact 22 matched with the main fixed contact 21. The auxiliary contact comprises an auxiliary fixed contact, an auxiliary contact 323 and a first elastic element 33, wherein the auxiliary contact 323 is closed or opened with the auxiliary fixed contact under the action of the push rod 31 and the first elastic element 33. The auxiliary contact and the main contact can be synchronously closed or opened and are related to the positions of the auxiliary static contact and the main static contact 21, the auxiliary static contact and the main static contact 21 are arranged on the same side, so that the auxiliary contact and the main contact are synchronously closed or synchronously opened, the auxiliary static contact and the main static contact 21 are arranged on different sides, and when the main contact is closed, the auxiliary contact is opened.

The auxiliary contacts comprise at least one set of auxiliary fixed contact and auxiliary moving contact 323, and a first elastic member 33, wherein the auxiliary moving contact 323 is closed or opened with the auxiliary fixed contact under the action of the push rod 31 and the first elastic member 33. The auxiliary stationary contact in this embodiment includes two sets of a normally open contact 321 and a normally closed contact 322 that are arranged oppositely, a first contact and a second contact that are matched with the normally open contact 321 and the normally closed contact 322 are respectively arranged on two sides of the auxiliary contact 323, the auxiliary contact 323 moves between the normally open contact 321 and the normally closed contact 322 under the action of the push rod 31, and the first contact and the second contact can be connected through an elastic member. The push rod 31 drives the auxiliary contact terminal 323 to move upwards to enable the first contact to be in contact with the normally open contact 321 so as to achieve the purpose that the auxiliary contact terminal closes and the normally open contact is closed; the side provided with the second contact is connected with the first elastic element 33, and the first elastic element 33 provides a downward driving force for the auxiliary contact 323 to drive the second contact to be in contact with the normally closed contact 322 so as to open the normally open contact. The first elastic element 33 provides a reset driving force for the auxiliary contact, and when the push rod 31 makes the auxiliary contact 323 move upwards and close under the action of the elastic torsion element 5, the resistance of the first elastic element 33 needs to be overcome; when the push rod 31 makes the auxiliary contact 323 move downwards to be disconnected under the action of the elastic torsion element 5, the first elastic element 33 provides a downward reset driving force for the auxiliary contact 323 to accelerate the disconnection. The push rod 31 may be an L-shaped push rod 31, but is not limited to an L-shape, one end of the L-shaped push rod 31 is connected to the auxiliary contact, the other end of the L-shaped push rod 31 is connected to the second arm 52 of the elastic torsion member 5, and a slide rail for assisting the push rod 31 to move may be disposed in the housing or the bracket 11, for example, the slide rail is a guide chute disposed in a vertical direction.

Specifically, as shown in fig. 1-2, the main contact mechanism includes a main contact and a second elastic member 23, and the second elastic member 23 provides an upward driving force for the main contact, so that the main contact is disconnected under the combined action of the second elastic member 23 and the switch lever 4. The main contact comprises a main fixed contact 21 fixed in a housing and an active contact 22 matched with the main fixed contact 21, a pushing portion 221 used for being pushed by a switch rod 4 is convexly arranged on one side of the active contact 22 close to the main fixed contact 21, and the pushing portion 221 is set to be beneficial to reducing the moving distance of the switch rod 4 or shortening the size of the switch rod 4.

As another embodiment, the middle portion of the push rod 31 is rotatably connected to the housing or the bracket 11, and both ends of the push rod 31 are respectively hinged to the second arm 52 of the elastic torsion member 5 and the auxiliary contact. By utilizing the lever principle, when the elastic torsion piece 5 drives one end of the push rod 31 to rise, the other end of the push rod 31 descends and acts on the auxiliary contact to open or close the auxiliary contact. In addition, the auxiliary contact mechanism may further include other transmission or link structure cooperating with the push rod 31 to drive the auxiliary contact to move.

Both of the above embodiments can use the switch lever 4 structure shown in fig. 3, and the switch lever 4 is preferably configured as a substantially triangular switch lever 4, although other shapes are possible, but three separate connection ends are still required; each corner of the particular triangular switch lever 4 acts as a connecting end; the first connecting end 41 of the triangular switch lever 4 is in driving connection with the operating mechanism, the second connecting end 42 of the triangular switch lever 4 is used for being pivotally connected with the bracket 11, the third connecting end 43 of the triangular switch lever 4 is connected with the second arm 52 of the elastic torsion piece 5, and the end of the third connecting end 43 of the triangular switch lever 4 is used for driving the main contact mechanism to be disconnected, and particularly to be in contact with the pushing portion 221 of the active contact 22.

The operating mechanism further comprises a gear 12, a jump buckle 13 and a lock catch 14 which are arranged on the bracket 11; the gear 12 is mounted on the upper part of the bracket 11, the trip buckle 13 and the lock catch 14 are arranged on one side of the gear 12, the gear 12 is connected with the trip buckle 13 through a first connecting rod 15, the trip buckle 13 is connected with the lock catch 14 in a buckling manner and is rotatably mounted on the bracket 11, the trip buckle 13 is connected with the switch rod 4 through a second connecting rod 16, the gear 12 rotates towards the switching-on direction, the trip buckle 13 is locked with the lock catch 14, under the action of the first connecting rod 15 and the second connecting rod 16, the trip buckle 13 drives the switch rod 4 arranged on the lower part of the bracket 11 to rotate to the switching-on position, the elastic torsion piece 5 stores elastic potential energy, the end part of the third connecting end 43 of the switch rod 4 is lifted and separated from the main contact mechanism, and in the process, the push rod 31 is driven by the elastic; the gear 12 rotates towards the opening direction, the trip catch 13 is unlocked with the lock catch 14, the elastic torsion piece 5 drives the switch rod 4 to rotate to the opening position under the action of the first connecting rod 15 and the second connecting rod 16, the end part of the third connecting end 43 of the switch rod 4 descends to trigger the main contact mechanism, and correspondingly, the push rod 31 is driven by the elastic torsion piece 5 to trigger the auxiliary contact mechanism. Specifically, the gear 12 and the switch lever 4 are respectively arranged at the upper side and the lower side of the bracket 11, the elastic torsion member 5 is arranged at one side of the gear 12 and the switch lever 4, and the jump buckle 13 and the lock catch 14 are arranged at the other side of the gear 12 and the switch lever 4.

The elastic torsion member 5 is a torsion spring, and the first elastic member 33, the second elastic member 23 and the auxiliary breaking elastic member 6 are compression springs.

Compared with the existing motor circuit breaker, the auxiliary contact mechanism of the invention is switched on and off by the elastic torsion piece 5 for storing elastic potential energy in the motor circuit breaker, the auxiliary contact mechanism is driven to be switched on and off by utilizing the position change of the elastic torsion piece 5 in the switching process of switching on and off, the function of the elastic torsion piece 5 is increased, a push plate a and a driving spring b which is arranged in a shell and used for driving a main contact mechanism and the auxiliary contact mechanism under the push plate a are cancelled, the rotary push of an original push rod 31' is changed into the way that the torsion elastic piece 5 drives the main contact mechanism and the auxiliary contact mechanism to move up and down, the resistance required to be overcome by an operating mechanism in the switching process of switching on and off is reduced.

Only one of the primary and secondary contact means is shown in fig. 1-2, but the specific number is not limited to one.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims

1. The utility model provides a circuit breaker, is including setting up operating device, main contact mechanism and the supplementary contact mechanism in the casing, and operating device includes support (11), install switch lever (4) and elasticity torsion member (5) on support (11), first arm (51) and support (11) of elasticity torsion member (5) are connected, and second arm (52) and switch lever (4) of elasticity torsion member (5) are connected its characterized in that: the auxiliary contact mechanism comprises a push rod (31) and an auxiliary contact, the push rod (31) is in contact with a second arm (52) of the elastic torsion piece (5), and when the operating mechanism drives the switch rod (4) to drive the main contact mechanism to act, the push rod (31) drives the auxiliary contact to act under the driving of the elastic torsion piece (5).

2. The circuit breaker of claim 1, wherein: the auxiliary contact mechanism further comprises an auxiliary breaking elastic piece (6) used for driving the push rod (31) and the elastic torsion piece (5) to move synchronously, one end of the auxiliary breaking elastic piece (6) is connected with the middle part of the push rod (31), and the other end of the auxiliary breaking elastic piece is fixed in the shell.

3. The circuit breaker of claim 1, wherein: the auxiliary contact comprises an auxiliary fixed contact, an auxiliary moving contact (323) and a first elastic piece (33), wherein the auxiliary moving contact (323) is closed or opened with the auxiliary fixed contact under the action of the push rod (31) and the first elastic piece (33).

4. The circuit breaker of claim 3, wherein: the auxiliary static contact comprises a normally open contact (321) and a normally closed contact (322) which are fixed and arranged oppositely, a first contact and a second contact which are matched with the normally open contact (321) and the normally closed contact (322) are respectively arranged on two sides of the auxiliary moving contact (323), and the auxiliary moving contact (323) moves between the normally open contact (321) and the normally closed contact (322) under the action of the push rod (31).

5. The circuit breaker of claim 1, wherein: the push rod (31) is an L-shaped push rod (31), one end of the L-shaped push rod (31) is connected with the auxiliary contact, and the other end of the L-shaped push rod (31) is connected with a second arm (52) of the elastic torsion piece (5).

6. The circuit breaker of claim 1, wherein: the middle part of the push rod (31) is rotatably connected with the shell or the bracket (11), and two ends of the push rod (31) are respectively connected with the second arm (52) of the elastic torsion piece (5) and the auxiliary contact.

7. The circuit breaker of claim 1, wherein: the main contact mechanism comprises a main contact and a second elastic piece (23), the main contact comprises a main static contact (21) fixed in the shell and a driving contact (22) matched with the main static contact (21), a pushing portion (221) used for being pushed by the switch rod (4) is arranged on one side of the driving contact (22) in a protruding mode, and the second elastic piece (23) is arranged on the other side of the driving contact (22).

8. The circuit breaker of claim 1, wherein: the elastic torsion piece (5) is a torsion spring.

9. The circuit breaker of claim 1, wherein: the switch rod (4) is a triangular switch rod (4), and each corner of the triangular switch rod (4) serves as a connecting end; the first connecting end (41) of the triangular switch rod (4) is in driving connection with the operating mechanism, the second connecting end (42) of the triangular switch rod (4) is used for being in pivoting connection with the support (11), the third connecting end (43) of the triangular switch rod (4) is connected with the second arm (52) of the elastic torsion piece (5), and the end portion of the third connecting end (43) of the triangular switch rod (4) is used for driving the main contact mechanism to be disconnected.

10. The circuit breaker of claim 1, wherein: the operating mechanism further comprises a gear (12), a jump buckle (13) and a lock catch (14) which are arranged on the bracket (11); the gear (12) is connected with the trip buckle (13) through a first connecting rod (15), the trip buckle (13) is connected with the lock catch (14) in a buckling mode, the trip buckle (13) is connected with the switch rod (4) through a second connecting rod (16), the gear (12) rotates towards the closing direction, the trip buckle (13) is locked with the lock catch (14), under the action of the first connecting rod (15) and the second connecting rod (16), the trip buckle (13) drives the switch rod (4) to rotate to the closing position to enable the main contact mechanism and the auxiliary contact mechanism to be closed, and the elastic torsion piece (5) stores elastic potential energy; the gear (12) rotates towards the opening direction, the tripping buckle (13) and the lock catch (14) are unlocked, and the elastic torsion piece (5) drives the switch rod (4) to rotate to the opening position under the action of the first connecting rod (15) and the second connecting rod (16), so that the main contact mechanism and the auxiliary contact mechanism are both disconnected.