CN211376563U - Residual current operated circuit breaker operating device and residual current operated circuit breaker - Google Patents

Abstract

The utility model provides a residual current operated circuit breaker operating device and residual current operated circuit breaker relates to low-voltage apparatus technical field. The residual current operated circuit breaker operating mechanism comprises a supporting piece, a handle, a connecting rod, a rotating shaft, a mechanism seat and a moving contact, wherein the handle is rotatably connected to the supporting piece, two ends of the connecting rod are respectively connected to the handle and the mechanism seat, the rotating shaft is fixed on the supporting piece, the mechanism seat is rotatably connected to the rotating shaft, and the mechanism seat is provided with the moving contact. When the handle rotates, the handle rotates around the rotating shaft through the connecting rod driving mechanism seat to drive the moving contact to move. The residual current operated circuit breaker comprises a base and the residual current operated circuit breaker operating mechanism, wherein the base is provided with a fixed contact, the residual current operated circuit breaker operating mechanism is assembled in the base, and the moving contact can contact with or be far away from the fixed contact. The residual current operated circuit breaker operating mechanism and the residual current operated circuit breaker are simple in structure and convenient to assemble.

Description

Residual current operated circuit breaker operating device and residual current operated circuit breaker

Technical Field

The utility model relates to a low voltage apparatus technical field particularly, relates to a residual current operated circuit breaker operating device and residual current operated circuit breaker.

Background

Residual Current Circuit Breakers (RCCBs) can rapidly cut off a fault power supply within a very short time, protect the safety of people and electrical equipment, and are widely applied. The RCCB realizes switching on and switching off through an operating mechanism. However, the conventional RCCB operating mechanism is complicated in structure and inconvenient to assemble.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a residual current operated circuit breaker operating device and residual current operated circuit breaker, its structure is comparatively simple, convenient equipment.

The embodiment of the utility model discloses a can realize like this:

in a first aspect, an embodiment provides an operating mechanism of a residual current operated circuit breaker, which comprises a supporting piece, a handle, a connecting rod, a rotating shaft, a mechanism seat and a moving contact, wherein the handle is rotatably connected to the supporting piece; when the handle rotates, the handle rotates around the rotating shaft through the connecting rod driving mechanism seat to drive the moving contact to move.

In an optional embodiment, the mechanism seat comprises a jump buckle and a lock catch, the jump buckle and the lock catch are respectively connected to the mechanism seat in a rotating mode, the connecting rod is connected to the jump buckle in a rotating mode, when the handle rotates, the handle drives the jump buckle to rotate relative to the mechanism seat through the connecting rod, so that the jump buckle is connected with the lock catch, the jump buckle, the lock catch and the mechanism seat are fixed relatively, and the mechanism seat is driven to rotate.

In an alternative embodiment, the jump button is provided with a latch, and the lock catch is provided with a clamping groove matched with the latch, so that the jump button and the lock catch can be connected in a breaking way.

In an alternative embodiment, the distance between the movable contact and the rotating shaft is 2-5 times of the distance between the position where the connecting rod is connected with the jump buckle and the rotating shaft.

In an optional embodiment, the jump button and the lock catch are made of plastic materials.

In an optional embodiment, a cavity and a through hole are arranged at one end, away from the connecting rod, of the mechanism seat, the through hole is communicated with the cavity and the outside of the mechanism seat, the moving contact is fixed on the inner wall of the cavity through the elastic element, and the moving contact penetrates out of the through hole and can move relative to the through hole.

In an alternative embodiment, the supporting member includes a first supporting plate and a second supporting plate which are arranged at intervals, the rotating shaft is fixed between the first supporting plate and the second supporting plate, and the mechanism seat is located between the first supporting plate and the second supporting plate.

In an optional embodiment, the switching-on/off indicating device comprises a switching-on/off indicating piece clamped on the mechanism seat, and the switching-on/off indicating piece is used for indicating a switching-on state or a switching-off state.

In a second aspect, an embodiment provides a residual current operated circuit breaker, including base and above-mentioned residual current operated circuit breaker operating device, the base is provided with the static contact, and residual current operated circuit breaker operating device assembles in the base, and the moving contact can contact or keep away from the static contact.

In an optional embodiment, a splicing structure is arranged on a support piece of the residual current operated circuit breaker operating mechanism, so that the residual current operated circuit breaker operating mechanism can be detachably spliced in the base.

The utility model discloses beneficial effect includes:

the residual current operated circuit breaker operating mechanism comprises a supporting piece, a handle, a connecting rod, a rotating shaft, a mechanism seat and a moving contact, wherein the handle is rotatably connected to the supporting piece, two ends of the connecting rod are respectively connected to the handle and the mechanism seat, the rotating shaft is fixed on the supporting piece, the mechanism seat is rotatably connected to the rotating shaft, and the mechanism seat is provided with the moving contact. When the handle rotates, the handle rotates around the rotating shaft through the connecting rod driving mechanism seat to drive the moving contact to move. This residual current operated circuit breaker operating device is provided with fixed pivot on support piece to make the mechanism seat rotate to be connected in the pivot, when rotating the handle, rotate around the pivot through the connecting rod actuating mechanism seat and remove in order to drive the moving contact, make the moving contact can contact or separate with the static contact after the circuit breaker is assembled completely. Compared with the mode that a multi-connecting-rod driving rotating shaft is adopted to drive a moving contact in the existing RCCB operating mechanism, the structure is simpler, and the assembly is convenient. The residual current operated circuit breaker comprises a base and the residual current operated circuit breaker operating mechanism, wherein the base is provided with a fixed contact, the residual current operated circuit breaker operating mechanism is assembled in the base, and the moving contact can contact with or be far away from the fixed contact. This residual current operated circuit breaker adopts the comparatively succinct operating device of structure to operating device assembles as a module and base, and it is more convenient to assemble.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is an exploded view of an operating mechanism of a residual current operated circuit breaker according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an operating mechanism of a residual current operated circuit breaker during opening of a brake according to an embodiment of the present invention;

FIG. 3 is an assembly view of the rotating shaft and the supporting member according to the embodiment of the present invention;

FIG. 4 is an enlarged view of the portion A of FIG. 2 according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an operating mechanism of a residual current operated circuit breaker during closing in an embodiment of the present invention;

fig. 6 is a schematic structural view of a mechanism seat according to an embodiment of the present invention;

fig. 7 is a schematic view illustrating an assembly of the moving contact and the mechanism base according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of an embodiment of the present invention, illustrating a residual current operated circuit breaker.

Icon: 100-residual current operated circuit breaker operating mechanism; 110-a support; 111-a first support plate; 112-a plug-in part; 113-a second support plate; 120-a handle; 130-a connecting rod; 140-a rotating shaft; 150-a mechanism seat; 151-jump buckle; 152-latch; 153-locking fastener; 154-card slot; 155-a first pivot; 156-a fixed part; 157-a second pivot; 158-chamber; 159-a via hole; 160-moving contact; 161-a reset member; 162-an elastic member; 163-mounting grooves; 170-switching on and off indicator; 172-clamping projection; 200-residual current operated circuit breaker; 210-a stationary contact; 220-base.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that, if the terms "upper", "lower", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, the description is only for convenience of description and simplification, but the indication or suggestion that the indicated device or element must have a specific position, be constructed and operated in a specific orientation, and thus, should not be interpreted as a limitation of the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

Referring to fig. 1, 2 and 3, the present embodiment provides an operating mechanism 100(RCCB operating mechanism) of a residual current operated circuit breaker, which includes a supporting member 110, a handle 120, a connecting rod 130, a rotating shaft 140, a mechanism seat 150 and a movable contact 160. The handle 120 is rotatably connected to the support 110, and both ends of the link 130 are connected to the handle 120 and the mechanism base 150, respectively. The rotating shaft 140 is fixed to the supporting member 110, the mechanism base 150 is rotatably connected to the rotating shaft 140, and the mechanism base 150 is provided with a movable contact 160. When the handle 120 rotates, the handle 120 drives the mechanism base 150 to rotate around the rotating shaft 140 through the connecting rod 130 to drive the movable contact 160 to move.

In this embodiment, the supporting member 110 includes a first supporting plate 111 and a second supporting plate 113 spaced apart from each other, and the rotating shaft 140 is fixed between the first supporting plate 111 and the second supporting plate 113. The first support plate 111 and the second support plate 113 are oppositely arranged, and a rotating shaft 140 is embedded on the first support plate 111. Meanwhile, the first support plate 111 and the second support plate 113 are respectively provided with an inserting part 112, and the inserting part 112 can be a slot or a protrusion, and only the handle 120 can be stably assembled. Be provided with mutually supported joint structure and screw hole on first backup pad 111 and the second backup pad 113 respectively to when the assembly, can be in the same place first backup pad 111 and the joint of second backup pad 113 through the joint mode, and can consolidate with the help of the screw hole and connect. In other embodiments, the support member 110 may only include the first support plate 111, and only the handle 120, the connecting rod 130, the rotating shaft 140, and the mechanism base 150 need to be stably integrated on the first support plate 111.

The handle 120 is rotatably connected to the rotating shaft, and both ends of the rotating shaft of the handle 120 are inserted into the insertion parts 112 during assembly, so that the handle 120 is stably assembled between the first support plate 111 and the second support plate 113.

One end of the connecting rod 130 is rotatably connected to the handle 120, and the other end is connected to the mechanism base 150 in a transmission manner, so that the handle 120 can drive the mechanism base 150 to rotate around the rotating shaft 140.

Referring to fig. 4 and 5, specifically, the mechanism base 150 is elongated, the rotating shaft 140 is perpendicular to the first support plate 111, and the non-end portion of the mechanism base 150 is rotatably connected to the rotating shaft 140, so that the mechanism base 150 is located between the first support plate 111 and the second support plate 113. The residual current operated circuit breaker operating mechanism 100 further comprises a trip buckle 151 and a lock catch 153, wherein the trip buckle 151 and the lock catch 153 are respectively rotatably connected to the mechanism base 150, the trip buckle 151 is pivotally connected to the mechanism base 150 through a first pivot 155, and the lock catch 153 is pivotally connected to the mechanism base 150 through a second pivot 157. The first pivot 155 and the second pivot 157 are both located at an end of the mechanism base 150 away from the movable contact 160. The jump buckle 151 is provided with a latch 152, and the lock catch 153 is provided with a catch 154 engaged with the latch 152, so that the jump buckle 151 and the lock catch 153 can be detachably connected. The link 130 is rotatably connected to the jump buckle 151. In other embodiments, the jump buckle 151 may be provided with a locking groove 154, and the lock 153 is provided with a latch 152 engaged with the locking groove 154, so that the locking groove 154 and the latch 152 are not separated from each other by itself without special impact force after the locking groove 154 and the latch 152 are engaged.

When the handle 120 rotates, the handle 120 drives the jump buckle 151 to rotate relative to the mechanism base 150 through the connecting rod 130, so that the jump buckle 151 is connected with the lock 153, and further the jump buckle 151, the lock 153 and the mechanism base 150 are relatively fixed, thereby driving the mechanism base 150 to rotate. In detail, when the handle 120 rotates in a predetermined direction, the link 130 is driven to move, and the jump buckle 151 is driven to rotate relative to the mechanism base 150, and at this time, the mechanism base 150 does not start to rotate. When the jump buckle 151 rotates to the latch 152 is engaged with the engaging groove 154 of the lock 153, the jump buckle 151 and the lock 153 are relatively fixed due to the engagement, so that the jump buckle 151 and the lock 153 do not rotate relative to the mechanism base 150 any more, that is, the jump buckle 151, the lock 153 and the mechanism base 150 are relatively fixed at this time. The handle 120 is pushed to rotate further, and the force applied to the jumper 151 by the link 130 is transmitted to the mechanism base 150 through the first pivot 155 and the second pivot 157. Since the mechanism base 150 is rotatably connected to the rotating shaft 140, the mechanism base 150 rotates around the rotating shaft 140 under the action of force, so as to drive the movable contact 160 installed at the other end to move.

The residual current operated circuit breaker operating mechanism 100 can realize the direct control of the single connecting rod 130 on the mechanism seat 150 by the clamping of the jump buckle 151 and the lock buckle 153, so that the transmission is more flexible and reliable. Compare with traditional RCCB operating device, residual current operated circuit breaker operating device 100 abandons the scheme that two connecting rods or many connecting rods drive the pivot and then drive the moving contact and remove, adopts more direct connecting rod 130 to drive mechanism seat 150 pivoted setting, can obtain great transmission torque more easily, is favorable to inside transmission, and structure and transmission process obtain simplifying to a certain extent, and the convenience of equipment and the controllability to the cost when being favorable to improving production.

It can be understood that, in other embodiments, the connecting rod 130 may not be driven by the jump buckle 151 and the lock 153, but may be directly disposed with a connecting hole on the mechanism base 150, so that the connecting rod 130 is movably connected to the connecting hole of the mechanism base 150, and when the connecting rod 130 moves in place, the connecting rod 130 can abut against the connecting hole on the mechanism base 150 to drive the mechanism base 150 to rotate, and the purpose that the connecting rod 130 drives the movable contact 160 to move can also be achieved.

In this embodiment, the jump ring 151 and the lock 153 are made of plastic materials, so that on one hand, the overall mass of the operating mechanism can be effectively reduced, on the other hand, the conductive risk is also reduced, and meanwhile, the impact resistance and pressure resistance of the operating mechanism can also be improved. In other embodiments, the connecting rod 130, the jump buckle 151 and the lock 153 may be made of metal.

Referring to fig. 6, the latch 153 is provided with a reset element 161 for driving the latch 153 to reset. The reset piece 161 is located on a side of the mechanism base 150 facing away from the jump buckle 151, and the reset piece 161 has elasticity. In the open state, the reset element 161 is pressed against the fixed housing or against the mechanism seat 150, so that the reset element 161 is compressed and has a certain elastic potential energy. Under the action of the corresponding elastic restoring force, the lock catch 153 is located at a proper position so as to be conveniently clamped with the jump catch 151. Once the circuit breaker trips or is disconnected, the circuit breaker becomes the separating brake state by the combined floodgate state, and the hasp 153 can resume to the position of convenience and jump buckle 151 joint by oneself under the effect of piece 161 that resets to make things convenient for next combined floodgate to use.

In addition, in order to control the movement of the movable contact 160 more conveniently, the distance L1 between the movable contact 160 and the rotating shaft 140 is 2-5 times the distance L2 between the position where the connecting rod 130 is connected to the jumper 151 and the rotating shaft 140. Accordingly, the movable contact 160 is farther from the rotating shaft 140, and the link 130 is connected to the trip 151 at a position closer to the rotating shaft 140. Therefore, when the handle 120 is operated, the end of the mechanism base 150 connected to the connecting rod 130 moves slightly, and the end of the movable contact 160 moves relatively greatly. This setting can improve closing and separating brake efficiency on the one hand, and on the other hand is favorable to reducing the probability that appears the electric arc between moving contact 160 and static contact 210 when separating brake to can improve circuit breaker's security. In this embodiment, L1 is the distance between the central point of rotation of the connecting rod 130 rotatably connected to the jumper 151 and the central axis of the rotating shaft 140; l2 is the distance between the midpoint of the contact surface of the movable contact 160 for contacting the stationary contact 210 and the central axis of the rotating shaft 140, as shown in the figure. In other embodiments, the ratio of L1 to L2 may be slightly larger or smaller than the above range of ratios, and need only be determined according to actual needs.

Referring to fig. 7, in the present embodiment, a chamber 158 and a through hole 159 are disposed at an end of the mechanism seat 150 away from the connecting rod 130, and the through hole 159 communicates the chamber 158 and the outside of the mechanism seat 150. The movable contact 160 is fixed to an inner wall of the chamber 158 by an elastic member 162, and the movable contact 160 penetrates through the through hole 159 and can move relative to the through hole 159. Specifically, the movable contact 160 is an L-shape with long sides perpendicular to short sides, and a portion of the movable contact 160 located in the chamber 158 is connected to an inner wall of the chamber 158 through the elastic member 162, so as to connect the movable contact 160 to the mechanism base 150. A fixed portion 156 is disposed in the chamber 158, and one end of the elastic member 162 is fixed to the fixed portion 156 and the other end is fixed to the movable contact 160. The long side of the movable contact 160 penetrates through the through hole 159, and the portion of the long side located outside the mechanism seat 150 is provided with a contact surface for contacting the fixed contact 210. When the switch is closed, the moving contact 160 contacts with the fixed contact 210, and in order to further ensure the contact stability, the handle 120 needs to be continuously pulled after the two contacts, so that the fixed contact 210 and the moving contact 160 are tightly abutted to generate an abutting force. Under the condition that the fixed contact 210 generates a supporting force for the movable contact 160, because a part of the movable contact 160 is located in the chamber 158, the movable contact 160 rotates around the inner wall of the through hole 159, so that the movable contact 160 in the chamber 158 presses the elastic member 162, the elastic member 162 is compressed, the elastic member 162 exerts a counter force on the movable contact 160 under the action of a restoring force, and finally the movable contact 160 and the fixed contact 210 can stably support.

Therefore, the elastic element 162 provides a final pressure to the movable contact 160, and ensures the stability of the contact between the movable contact 160 and the stationary contact 210 after closing. In this embodiment, the elastic member 162 is a spring, and in other embodiments, the elastic member 162 may be an elastic rubber column, etc. only to ensure that the elastic member 162 can provide a sufficient final pressure.

In other embodiments, the movable contact 160 can also be directly fixed to the mechanism base 150, and the chamber 158 and the elastic element 162 are not additionally provided, so that the basic opening and closing requirements of the circuit breaker can be met.

For the convenience of the user, the residual current operated circuit breaker operating mechanism 100 includes an opening and closing indicator 170 clamped to the mechanism base 150, and the opening and closing indicator 170 is used for indicating the closing state or the opening state of the circuit breaker. Specifically, the switching indicator 170 is provided with a clamping protrusion 172, an end surface of one end of the mechanism base 150 away from the movable contact 160 is provided with a mounting groove 163 matched with the clamping protrusion 172, and the switching indicator 170 is detachably connected to the mechanism base 150. The switching on/off indicator 170 includes a switching on display area and a switching off display area, and the two areas are coated with different colors, such as green and red, to represent switching on and switching off, respectively. When the operating mechanism is assembled, the housing has a hole to expose a portion of the closing and opening indicator 170. In the process of switching on or switching off, the mechanism base 150 rotates around the rotating shaft 140, and drives the switching on/off indication member 170 to move, so that the switching on/off indication member 170 can expose a corresponding display area from the hole of the housing, and a user can check the switching on/off state. In other embodiments, the closing and opening indicating member 170 can be directly fixed on the mechanism base 150 without using a clamping structure.

In addition, referring to fig. 8, the embodiment further provides a residual current operated circuit breaker 200, which includes a base 220 and the residual current operated circuit breaker operating mechanism 100, wherein the base 220 is provided with a fixed contact 210, the residual current operated circuit breaker operating mechanism 100 is assembled in the base 220, and the movable contact 160 can contact with or be away from the fixed contact 210. The fixed contact 210 and the elastic element 162 are located on the same side of the movable contact 160.

In this embodiment, to realize the modular installation, the support member 110 of the operating mechanism 100 of the residual current operated circuit breaker is provided with a splicing structure, so that the operating mechanism 100 of the residual current operated circuit breaker can be detachably spliced in the base 220. The splicing structure can be a protrusion or a groove arranged on the first supporting plate 111 and the second supporting plate 113, and can also be a screw hole matched with the base 220, so that the residual current operated circuit breaker operating mechanism 100 is convenient to install in the base 220 as a module, and is convenient to disassemble, and convenient to assemble during production and maintain during subsequent overhaul.

The operating principle of the residual current operated circuit breaker operating mechanism 100 is as follows:

when the switch is turned on, the handle 120 is rotated in a predetermined direction. The handle 120 drives the jumper 151 to rotate relative to the mechanism base 150 through the link 130, so that the latch 152 moves toward the latch groove 154. When the jump buckle 151 rotates to the latch 152 engaged with the engaging slot 154 of the lock 153, the jump buckle 151, the lock 153 and the mechanism base 150 are relatively fixed. When the handle 120 is pushed to rotate further, the force applied to the trip buckle 151 by the connecting rod 130 is transmitted to the mechanism base 150 through the first pivot 155 and the second pivot 157, so that the mechanism base 150 rotates around the rotating shaft 140, and the movable contact 160 installed at the other end is driven to move to approach the fixed contact 210 until contacting the fixed contact 210. Due to the arrangement of the pulling stroke of the handle 120, after the two contact, the handle 120 continues to rotate, and the fixed contact 210 abuts against the movable contact 160 to generate an abutting force. Under the action of the supporting force, the movable contact 160 rotates around the inner wall of the through hole 159 as a pivot, so that the elastic element 162 is compressed, and the elastic element 162 exerts a reaction force on the movable contact 160 under the action of a restoring force, so that the movable contact 160 can stably support against the fixed contact 210. Similarly, the brake can be opened by pulling the handle 120 in the reverse direction of the preset direction. In the switching-off process, the lock catch 153 returns to the position before switching-on under the action of the restoring force of the resetting piece 161, so as to facilitate the next switching-on. The structure and the transmission process of the residual current operated circuit breaker operating mechanism 100 are simplified to a certain extent, the transmission reliability can be ensured, and the assembly convenience and the cost controllability during production can be improved.

The residual current operated circuit breaker operating mechanism 100 integrates all the parts on the first supporting plate 111 and the second supporting plate 113, so that the residual current operated circuit breaker operating mechanism 100 can be used as a module and assembled in the base 220 by means of the splicing structure on the first supporting plate 111 and the second supporting plate 113, and the assembly of the residual current operated circuit breaker 200 is more convenient.

The residual current operated circuit breaker operating mechanism 100 optimizes the transmission structure and the transmission process, so that the structure of the operating mechanism is simpler, the assembly is convenient, the improvement of the production efficiency of the residual current operated circuit breaker 200 is facilitated, and the production cost is effectively reduced.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An operating mechanism of a residual current operated circuit breaker is characterized by comprising a supporting piece, a handle, a connecting rod, a rotating shaft, a mechanism seat and a moving contact, wherein the handle is rotatably connected to the supporting piece; when the handle rotates, the handle drives the mechanism seat to rotate around the rotating shaft through the connecting rod so as to drive the moving contact to move.

2. The operating mechanism of the residual current operated circuit breaker according to claim 1, comprising a jump buckle and a lock buckle, wherein the jump buckle and the lock buckle are respectively and rotatably connected to the mechanism base, the connecting rod is rotatably connected to the jump buckle, when the handle rotates, the handle drives the jump buckle to rotate relative to the mechanism base through the connecting rod, so that the jump buckle is connected with the lock buckle, and the jump buckle, the lock buckle and the mechanism base are relatively fixed, thereby driving the mechanism base to rotate.

3. The operating mechanism of a residual current operated circuit breaker according to claim 2 wherein said trip catch is provided with a latch and said latch is provided with a catch cooperating with said latch to enable said trip catch and said latch to be releasably connected.

4. The operating mechanism of a residual current operated circuit breaker according to claim 2 wherein the distance between the movable contact and the rotary shaft is 2-5 times the distance between the position where the connecting rod is connected to the trip and the rotary shaft.

5. The operating mechanism of a residual current operated circuit breaker according to claim 2 wherein said jumper and said latch are plastic.

6. The operating mechanism of a residual current operated circuit breaker according to claim 1, wherein a chamber and a through hole are provided at an end of the mechanism seat away from the connecting rod, the through hole communicates the chamber and an exterior of the mechanism seat, the movable contact is fixed to an inner wall of the chamber through an elastic member, and the movable contact penetrates out of the through hole and is movable relative to the through hole.

7. The operating mechanism for a residual current operated circuit breaker according to claim 1 wherein said support member comprises a first support plate and a second support plate spaced apart from each other, said shaft being fixed between said first support plate and said second support plate, said mechanism seat being located between said first support plate and said second support plate.

8. The operating mechanism of residual current operated circuit breaker according to claim 1, characterized in that it comprises an on/off indicator clamped to the mechanism seat, the on/off indicator being used to indicate the on/off state.

9. A residual current operated circuit breaker, characterized in that, including a base and the residual current operated circuit breaker operating mechanism of any one of claims 1-8, the base is provided with a fixed contact, the residual current operated circuit breaker operating mechanism is assembled in the base, and the movable contact can contact or be far away from the fixed contact.

10. The residual current operated circuit breaker according to claim 9, wherein said support member of said operating mechanism of said residual current operated circuit breaker is provided with a splicing arrangement to enable said operating mechanism of said residual current operated circuit breaker to be removably spliced into said base.

Images