CN213752498U - Novel circuit breaker isolation grounding mechanism device - Google Patents

Abstract

The utility model provides a novel grounding mechanism is kept apart to circuit breaker device, include: the five-prevention interlocking device comprises a circuit breaker module, an isolation grounding module, a module mounting plate and a five-prevention interlocking module, wherein the inner side surface of the module mounting plate is mounted on the surface of a bearing object, the isolation grounding module is mounted at the upper part of the outer side surface of the module mounting plate, the circuit breaker module is mounted at the lower part of the outer side surface of the module mounting plate, and the five-prevention interlocking module is mounted in the outer side of the isolation grounding module and the circuit breaker module. The utility model has the advantages that: the circuit breaker mechanism part and the isolation grounding mechanism part are arranged together by adopting an integrated design, so that the circuit breaker is small in size; and a new interlocking mode is adopted, so that the interlocking is more reliable. The length of the lower door interlock is adjustable, and the requirement on the assembly precision of the lower door is low. The cost is reduced, and the manpower is liberated.

Description

Novel circuit breaker isolation grounding mechanism device

Technical Field

The utility model relates to a circuit breaker especially relates to a novel grounding mechanism is kept apart to circuit breaker device.

Background

At the present stage, when the circuit breaker mechanism works, the handle (or the motor) is used for rotating the energy storage shaft, so that the energy storage spring is stretched and stores energy, and after the circuit breaker mechanism passes a limit position, the spring is kept in an energy storage state due to a limiting device; the switch-on button is pressed, the limiting device rotates and is not limited any more, the spring is released instantly, and the change of the rotation angle of the spring is converted into the displacement change of the moving contact of the vacuum bulb of the circuit breaker through the conversion of the mechanical device, so that the switch-on operation is realized. Meanwhile, in the process of releasing the energy storage spring, a part of energy acts on the opening spring through the conversion device, so that the opening spring is elongated, and the energy storage operation of the opening spring is finished; when the opening button is pressed, the limit of the opening spring is cancelled, the opening spring contracts to release energy, and the energy is converted into the displacement of the vacuum bubble moving contact of the circuit breaker through a mechanical structure, so that the opening operation is realized.

The isolation grounding (three-station) mechanism at the present stage can be actually divided into two parts, wherein the upper half part controls isolation switching-off and isolation switching-on, and the lower half part controls grounding switching-on and grounding switching-off (namely isolation switching-off); the upper half part adopts a coil spring to realize energy conversion, and the lower half part realizes energy conversion through a pressure spring.

When the upper half part of the isolation grounding mechanism works, an operator rotates the isolation operating shaft by using the handle to slowly input energy, so that the coil spring is contracted, and when the upper half part of the isolation grounding mechanism reaches a critical point, the coil spring is instantaneously released to output instantaneous kinetic energy, so that the isolation main shaft is rotated to complete the closing action of the isolation moving contact; an operator rotates the operating handle reversely, and the coil spring energy storage-release-isolation main shaft rotates reversely, so that the opening operation of the isolation moving contact is realized.

When the lower half part of the isolation grounding mechanism works, an operator rotates a grounding operation shaft by using a handle to compress a grounding spring, and when the grounding spring just passes a dead point, the grounding spring is released instantly to push a rocker arm on a grounding main shaft, so that the grounding main shaft rotates to complete grounding and closing actions; similarly, an operator rotates the grounding operation shaft reversely by using the handle, the grounding spring is compressed and instantly released when passing a dead point, and the grounding main shaft is driven to rotate to complete the grounding brake-separating action.

An interlocking piece A is arranged between the upper part and the lower part of the isolation grounding mechanism, so that a handle cannot be inserted into a grounding operation shaft during isolation switching-on, and the handle cannot be inserted into the isolation operation shaft during grounding switching-on.

The circuit breaker mechanism and the isolation mechanism are structurally independent, and after the circuit breaker mechanism and the isolation mechanism are installed on the box body, the interlocking device is installed again, so that the grounding switch cannot be switched off when the circuit breaker is switched on. The interlocking device is formed by combining an interlocking piece B and an interlocking piece C, wherein the interlocking piece B is provided with an upward pulling force by a spring, when the circuit breaker is switched on, the interlocking piece B is pressed down to shield an isolation operation shaft, and an operation handle cannot be inserted into the interlocking piece B, so that the on-load on-off isolation switch in the five-prevention interlocking is prevented; the interlocking piece A is combined, so that the electrification-prevention grounding switch in the five-prevention interlocking can be realized; the interlocking piece C limits the isolation main shaft and the breaker main shaft, so that the breaker main shaft is limited and cannot rotate when in an isolation opening or grounding state, and the circuit breaker is prevented from being opened and closed by mistake in five-prevention interlocking.

The lower end of the isolation grounding mechanism extends out of the grounding padlock rod, the length is fixed, and the grounding padlock rod can move up and down only when in a grounding closing state by means of a mechanical structure, so that the five-prevention interlocking device is matched with a lower door to prevent the five-prevention interlocking device from mistakenly entering the electrified compartment.

The isolation grounding mechanism is internally provided with a microswitch, a connecting lever is arranged on the grounding rotating shaft, when the grounding switch is switched on, the connecting lever presses down the microswitch, the microswitch is switched from switching-off to switching-on, and an electric loop realizes the prevention of power transmission with a ground wire in five-prevention interlocking by judging the state of the grounding switch.

The existing circuit breaker mechanism and the isolation grounding mechanism need to be respectively installed on the gas tank, and then the interlocking device needs to be installed, so that the requirement on the relative position precision of the two mechanisms is high, and otherwise, the interlocking device fails. The two mechanisms are large in size, heavy in weight, high in installation manpower requirement and long in consumed labor time.

The interlocking piece B and the interlocking piece C are limited by the strength of the materials, and are easy to fatigue and deform under the working state of high frequency and high impact strength, so that the five-prevention interlocking fails.

The length of ground connection padlock pole is fixed, can not adjust, and when high tension switchgear distinguished unit formula with be box altogether, the gas tank is aerifyd the back deformation degree different, leads to ground connection padlock pole to highly differ to the ground, has the risk that lower door interlock became invalid.

It can be seen that there are a number of problems with the prior art.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides a novel grounding mechanism is kept apart to circuit breaker device.

The utility model provides a novel grounding mechanism is kept apart to circuit breaker device, include:

the five-prevention interlocking device comprises a circuit breaker module, an isolation grounding module, a module mounting plate and a five-prevention interlocking module, wherein the inner side surface of the module mounting plate is mounted on the surface of a bearing object, the isolation grounding module is mounted at the upper part of the outer side surface of the module mounting plate, the circuit breaker module is mounted at the lower part of the outer side surface of the module mounting plate, and the five-prevention interlocking module is mounted in the outer side of the isolation grounding module and the circuit breaker module.

Further, the isolation grounding module includes:

the device comprises an isolation operation rotating shaft, a grounding operation rotating shaft, a gearbox output shaft, a main gear, a first auxiliary gear, a first transition gear, a second auxiliary gear and a second transition gear, wherein the isolation operation rotating shaft and the grounding operation rotating shaft are arranged on the upper surface of the gearbox; one end of the output shaft of the gearbox is arranged on the lower surface of the gearbox, the other end of the output shaft of the gearbox is provided with a main gear, a first transition gear and a second transition gear are respectively arranged on two sides of the main gear, and the first transition gear and the second transition gear are respectively meshed with the main gear; a first auxiliary gear meshed with the first transition gear is arranged on the other side of the first transition gear; a second auxiliary gear meshed with the second transition gear is arranged on the other side of the second transition gear; the main gear, the first pinion, the first transition gear, the second pinion and the second transition gear are all mounted on the module mounting plate.

Further, the transmission ratio of the main gear, the first transition gear and the first secondary gear is 1: 1: 1; the transmission ratio of the main gear, the second transition gear and the second auxiliary gear is 1: 1: 1.

further, the lateral surface of circuit breaker module installs: the energy storage device comprises an opening coil, a closing coil, an opening button, a closing button, an opening rotating shaft, a closing rotating shaft and an energy storage motor; the opening coil is linked with the opening rotating shaft through the opening button; and the closing coil is linked with the closing rotating shaft through the closing button.

Furthermore, the opening rotating shaft and the closing rotating shaft extend to the inner side surface of the breaker module;

further, the medial surface of circuit breaker module is provided with: the energy storage device comprises a cam, an energy storage rotating shaft, an energy storage gear, a main transmission shaft, a main transmission gear, a main transmission connecting lever, a brake separating limit connecting lever, a limit boss, a brake closing limit connecting lever, a brake closing spring, a brake separating spring and a main transmission connecting rod; the energy storage rotating shaft, the main transmission connecting lever, the brake separating limit connecting lever and the brake closing limit connecting lever can rotate around the self shafts; the energy storage gear is fixed on the energy storage rotating shaft and is driven to rotate by the energy storage motor; the cam and the main transmission gear are fixed on the main transmission shaft and can rotate around the main transmission shaft; the limiting boss is fixed on the end face of the main transmission gear and is static relative to the main transmission gear; the cam and the main transmission gear rotate synchronously, the main transmission shaft is linked with the closing spring, and the main transmission crank arm is linked with the main transmission connecting rod.

Further, the five-prevention interlocking module comprises:

the flange plate can rotate around a self shaft, is arranged on the gearbox, and is driven to rotate by mechanical transmission in the gearbox when the grounding operation rotating shaft or the isolation operation rotating shaft rotates, so that torque is output and the flange plate is driven to rotate; the first interlocking piece and the second interlocking piece are arranged on a panel of the circuit breaker module, a pin is arranged on the panel of the circuit breaker module, and the first interlocking piece and the second interlocking piece are provided with slotted holes and can slide up and down relative to the panel of the circuit breaker module; the first interlocking piece and the second interlocking piece are connected by using a bolt and are relatively fixed; when the flange plate rotates, the first interlocking piece and the second interlocking piece can be pushed to move downwards.

The utility model has the advantages that: the circuit breaker mechanism part and the isolation grounding mechanism part are arranged together by adopting an integrated design, so that the circuit breaker is small in size; and a new interlocking mode is adopted, so that the interlocking is more reliable. The length of the lower door interlock is adjustable, and the requirement on the assembly precision of the lower door is low. The cost is reduced, and the manpower is liberated.

Drawings

Fig. 1 is a schematic structural diagram of a novel circuit breaker isolation grounding mechanism device provided by the utility model.

Fig. 2 is the utility model provides a novel isolation ground connection module structure schematic diagram in circuit breaker isolation ground connection mechanism device.

Fig. 3 is a schematic structural diagram of an isolation and grounding module in a novel circuit breaker isolation and grounding mechanism device.

Fig. 4 is a schematic structural view of the inner side surface of the circuit breaker module in the novel circuit breaker isolation grounding mechanism device.

Fig. 5 is the utility model provides a novel circuit breaker keeps apart earthing mechanism interior harmless interlocking module structure schematic diagram.

Reference numerals:

1-module mounting plate; 2-isolating the grounding module; 3-a circuit breaker module;

4-five prevention interlocking module;

21-a gearbox; 22-isolating the operating shaft; 23-operating the spindle in grounded;

24-a gearbox output shaft; 25-a first pinion; 26-a first transition gear;

27-a main gear; 28-a second counter gear; 29-a second transition gear;

31-an energy storage motor; 32-a switching-off coil; 33-opening button;

34-a closing rotating shaft; 35-opening a brake rotating shaft; 36-a closing coil;

37-a closing button; 38-a cam; 39-an energy storage rotating shaft;

310-an energy storage gear; 311-main drive shaft; 312 — primary drive gear;

313-main transmission crank arm; 314-opening limit crank arm; 315-limit boss;

316-closing limit crank arm; 317-a closing spring; 318-opening spring;

319-main drive link;

41-a first interlocking tab; 42-flange plate; 43-a second locking tab;

44-a door interlock module; 45-interlocking arm.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments accompanying the drawings are described in detail below. It should be noted that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Examples

As shown in fig. 1, a novel circuit breaker isolation grounding mechanism device comprises:

breaker module 3, keep apart ground connection module 2, module mounting panel 1, five prevent interlocking module 4, 1 medial surface of module mounting panel is installed on bearing the weight of the thing surface, ground connection module 2 is kept apart in the installation of 1 lateral surface upper position of module mounting panel, 1 lateral surface lower part of module mounting panel installs breaker module 3, five prevent interlocking module 4 install in keep apart the outside of ground connection module 2 and breaker module 3.

Preferably, the isolation grounding module 2 includes:

an isolated operation rotating shaft 22, a grounded operation rotating shaft 23, a gearbox 21, a gearbox output shaft 24, a main gear 27, a first pinion 25, a first transition gear 26, a second pinion 28 and a second transition gear 29, wherein the isolated operation rotating shaft 22 and the grounded operation rotating shaft 23 are arranged on the upper surface of the gearbox 21; one end of the gearbox output shaft 24 is mounted on the lower surface of the gearbox 21, the other end of the gearbox output shaft 24 is mounted with a main gear 27, two sides of the main gear 27 are respectively provided with a first transition gear 26 and a second transition gear, and the first transition gear 26 and the second transition gear 29 are respectively meshed with the main gear 27; a first pinion 25 meshed with the first transition gear 26 is arranged on the other side of the first transition gear; a second auxiliary gear 28 meshed with the second transition gear 29 is arranged on the other side of the second transition gear; the main gear 27, the first pinion 25, the first transition gear 26, the second pinion 28 and the second transition gear 29 are all mounted on the module mounting plate 1.

Preferably, the gear ratio of the main gear 27, the first transition gear 26 and the first pinion 25 is 1: 1: 1; the transmission ratio of the main gear 27, the second transition gear 29 and the second auxiliary gear 28 is 1: 1: 1.

as shown in fig. 2, the isolation and grounding module 2 has an isolation operation shaft 22 and a grounding operation shaft 23 at the outermost sides, one end of the isolation operation shaft 22 and one end of the grounding operation shaft 23 are mounted on the transmission case 21, the other end of the transmission case output shaft 24 is provided with a main gear 27, the main gear 27 is meshed with transition gears (including a first transition gear 26 and a second transition gear 29 at both sides of the main gear 27), the transition gears are meshed with pinions (including a first pinion 25 at one side of the first transition gear 26 and a second pinion 28 at one side of the second transition gear 29), and the transmission ratio of the main gear 27, the transition gears and the pinions is 1: 1: 1, the axes of the main gear 27 and the secondary gear fixedly penetrate through the module mounting plate 1. The isolating operation rotating shaft 22 or the grounding operation rotating shaft 23 is rotated by using an operation handle, the speed is accelerated through the gear box 21, the main gear 27, the transition gear and the auxiliary gear are driven by the output shaft 24 of the gear box to rotate, and the isolating opening and closing operation or the grounding opening and closing operation is realized through the output torque of the rotating shafts of the main gear 27 and the auxiliary gear.

Preferably, as shown in fig. 3, the breaker module 3 has mounted on an outer side thereof: the energy storage device comprises an opening coil 32, a closing coil 36, an opening button 33, a closing button 37, an opening rotating shaft 35, a closing rotating shaft 34 and an energy storage motor 31; the opening coil 32 is linked with the opening rotating shaft 35 through the opening button 33; the closing coil 36 is linked with the closing rotation shaft 34 through the closing button 37.

The opening rotating shaft 35 and the closing rotating shaft 36 extend to the inner side surface of the circuit breaker module 3.

As shown in fig. 4, the inner side surface of the breaker module 3 is provided with: the energy storage device comprises a cam 38, an energy storage rotating shaft 39, an energy storage gear 310, a main transmission shaft 311, a main transmission gear 312, a main transmission connecting lever 313, a switching-off limit connecting lever 314, a limit boss 315, a switching-on limit connecting lever 316, a switching-on spring 317, a switching-off spring 318 and a main transmission connecting rod 319; the energy storage rotating shaft 39, the main transmission shaft 311, the main transmission connecting lever 313, the switching-off limiting connecting lever 314 and the switching-on limiting connecting lever 316 can rotate around the axes thereof; the energy storage gear 310 is fixed on the energy storage rotating shaft 39 and is driven to rotate by the energy storage motor 31; the cam 38 and the main transmission gear 312 are fixed on the main transmission shaft 311 and can rotate around the main transmission shaft 311; the limiting boss 315 is fixed on the end face of the main transmission gear 312 and is relatively static with the main transmission gear 312; the cam 38 rotates synchronously with the main transmission gear 312, the main transmission shaft 311 is linked with the closing spring 317, and the main transmission connecting lever 313 is linked with the main transmission connecting rod 319.

During closing energy storage operation, the handle rotates or the energy storage motor 31 is electrified to work, firstly, the energy storage motor 31 works, the energy storage gear 310 is driven to rotate through the energy storage rotating shaft 39, the energy storage gear 310 is meshed with the main transmission gear 312, so that the main transmission gear 312, the main transmission shaft 311 and the cam 38 are driven to synchronously rotate, at the moment, the rotation of the cam 38 drives the closing spring 317 to be elongated, and when the closing spring 317 is elongated to the limit position, the limit boss 315 on the main transmission gear 312 just contacts the closing limit crank arm 316; at this time, the closing limit lever 316 is limited by the closing rotating shaft 34, and the main transmission gear 312 is limited by the closing limit lever 316 through the limit boss 315, so that the closing spring 317 is clamped in the energy storage state, and thus, the energy storage operation is completed.

When the closing button 37 is pressed down, the closing rotating shaft 34 linked with the closing button rotates a certain angle, so that the limit of the closing rotating shaft 34 to the closing limit crank arm 316 in the previous step is invalid, the closing limit crank arm 316 is pushed to rotate by the limit boss 315, the limit of the closing limit crank arm 316 to the main transmission gear 312 in the previous step is invalid through the limit boss 315, at the moment, the closing spring 317 only receives the action of self-pulling force, is instantaneously contracted and reset, releases energy, the main transmission shaft 311 rotates along with the linkage of the spring, and the cam 38 fixed on the main transmission shaft 311 rotates a certain angle; in the rotation process of the cam 38, the cam 38 is linked with the main transmission crank arm 313, the cam 38 impacts one arm of the main transmission crank arm 313 to enable the main transmission crank arm 313 to rotate, the main transmission crank arm 313 is linked with the main transmission connecting rod 319, the main transmission connecting rod 319 is enabled to move, and closing movement is output.

When the switch is closed, the switching-off spring 318 is synchronously stretched through mechanical transmission, the switching-off limit crank arm 314 is limited by the switching-off rotating shaft 35 and cannot rotate, and the pulling force of the switching-off spring 318 acts on the main transmission crank arm 313 through the main transmission connecting rod 319 and is balanced with the force exerted on the main transmission crank arm 313 by the switching-off limit crank arm 314; during the opening operation, when the opening button 33 or the opening coil 32 is pressed to work, the opening rotating shaft 35 linked with the opening button rotates a certain angle, so that the limit of the opening rotating shaft 35 on the opening limit connecting lever 314 fails, the opening limit connecting lever 314 can rotate freely, the force applied by the opening limit connecting lever 314 on the main transmission connecting lever 313 disappears, at the moment, the main transmission connecting lever 313 only receives the force applied by the opening spring 318 through the main transmission connecting rod 319, the opening spring 318 contracts and resets instantly under the action of the self-pulling force, the energy is released, the main transmission connecting rod 319 is driven to act, the opening action is output, and the main transmission connecting lever 313 linked with the main transmission connecting rod 319 resets.

Preferably, as shown in fig. 5, the five-prevention interlocking module 4 includes: the interlocking mechanism comprises a flange 42, a first interlocking piece 41, a second interlocking piece 43, an interlocking arm 45 and a door interlocking module 44, wherein the flange 42 can rotate around a self axis (the center of the flange 42 is provided with an axis, one end of the flange 42 is fixed on the flange, and the other end of the flange extends into the gearbox 21, when the grounding operation rotating shaft 23 or the isolation operation rotating shaft 22 is operated, the flange 42 is mechanically driven by the inside of the gearbox 21, and the axis of the flange 42 is output with torque to drive the flange 42 to rotate), the interlocking mechanism is arranged on the gearbox 21, and when the grounding operation rotating shaft 23 or the isolation operation rotating shaft 22 rotates, the flange 42 is driven to rotate by the mechanical drive of the inside of the gearbox 21, the output torque; the first interlocking piece 41 and the second interlocking piece 43 are mounted on a panel of the circuit breaker module 3, a pin is arranged on the panel of the circuit breaker module 3, and the first interlocking piece 41 and the second interlocking piece 43 are provided with slotted holes and can slide up and down relative to the panel of the circuit breaker module 3; the first interlocking piece 41 and the second interlocking piece 43 are connected by using a bolt and are relatively fixed; when the flange 42 is rotated, the first interlocking piece 41 and the second interlocking piece 43 are pushed to move downward.

The flange 42 can rotate around a shaft, and the operating handle can be plugged and pulled only when the round hole on the flange 42 is over against the rotating shaft of the isolation operating rotating shaft 22 or the rotating shaft of the grounding operating rotating shaft 23; interlocking piece 1 and interlocking piece 2 use the bolt relatively fixed, convenient dismantlement, and the whole can slide from top to bottom. The door interlock module 44 is restrained from lifting by the interlock arm 45 and the flange 42.

The separation is in the separating brake state during initial position, and the circuit breaker is in the separating brake state. The connecting piece 2 is limited by the flange 42 and is positioned at the lower end position, the connecting piece 2 limits the closing brake rotating shaft 34, and the circuit breaker cannot be closed; the circuit breaker is prevented from being mistakenly closed by meeting the five-prevention interlocking.

When the power is transferred from the initial position: the handle is used for rotating the isolation operation rotating shaft 22, so that the flange plate 42 rotates anticlockwise, the handle is pulled out after the flange plate is in place, isolation switching-on and circuit breaker switching-off are carried out at the moment, and the interlocking pieces 1 and 2 are not limited; the connecting piece 1 and the interlocking piece 2 slide upwards to enable the interlocking piece 2 to avoid the closing rotating shaft 34, the limit on the closing rotating shaft 34 is cancelled, after the closing spring stores energy, the circuit breaker is closed, the interlocking arm 45 rotates clockwise, the limit on the door interlocking module 44 is cancelled, and at the moment, the power transmission operation is completed. The door interlocking module 44 is limited by the flange 42 and cannot slide upwards, so that the lower door interlocking is locked, and the condition that the five-prevention interlocking is prevented from entering the electrified compartment by mistake is met. At the moment, the isolating operation rotating shaft 22 is shielded by the flange 42 and cannot be inserted into the handle, so that the five-prevention interlocking is realized, and the electrification separation and combination is prevented.

When switched over from the initial position: the rotating shaft 23 is operated by rotating the handle to be grounded, so that the flange 42 rotates clockwise, the handle is pulled out after the flange is in place, the grounding is switched on, the breaker is switched off, and the limit of the flange 42 on the door interlocking module 44 is failed; the connecting sheet 1 and the interlocking sheet 2 are not limited; and the connecting piece 1 and the interlocking piece 2 slide upwards to enable the interlocking piece 2 to avoid the closing rotating shaft 34, the limit on the closing rotating shaft 34 is cancelled, and after the closing spring stores energy, the circuit breaker is closed, so that the grounding operation is completed. At this time, the interlocking arm 45 rotates clockwise, the limit of the door interlocking module 44 is cancelled, the door interlocking module 44 can be lifted up, the lower door interlock is invalid, and the lower door can be opened and closed. At the moment, the grounding operation rotating shaft 23 is shielded by the flange 42, the handle cannot be inserted, and the five-prevention interlocking is realized, so that the electrification on-off grounding is prevented.

The utility model provides a pair of novel ground connection operating device scheme is kept apart to circuit breaker. The scheme adopts an integrated design, and the circuit breaker mechanism part and the isolation grounding mechanism part are installed together, so that the volume is small; and a new interlocking mode is adopted, so that the interlocking is more reliable. The length of the lower door interlock is adjustable, and the requirement on the assembly precision of the lower door is low. The cost is reduced, and the manpower is liberated. The utility model discloses a novel grounding mechanism is kept apart to circuit breaker device compares with traditional mechanism, has smallly, light in weight, and simple to operate saves man-hour advantage. The utility model discloses an upper isolation mode adopts gear drive to replace former isolation mechanism's spring operation transmission mode, and transmission efficiency is high, and the mechanism is longe-lived, and operating condition is stable. The utility model discloses a novel five prevent interlocking mode, the interlocking is simple reliable, and the impact is little, longe-lived, and lower door interlocking length is adjustable, and application scope is wide.

Reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," "a preferred embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally in this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the purview of the invention to effect such feature, structure, or characteristic in connection with other ones of the embodiments. Although the invention has been described herein with reference to a number of illustrative examples thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the scope and spirit of the principles of this invention. More specifically, other uses will be apparent to those skilled in the art in view of variations and modifications in the subject matter incorporating the components and/or arrangement of the arrangement within the scope of the disclosure, drawings and claims hereof.

Claims (4)

1. The utility model provides a novel circuit breaker isolation ground mechanism device which characterized in that includes:

the five-prevention interlocking device comprises a circuit breaker module, an isolation grounding module, a module mounting plate and a five-prevention interlocking module, wherein the inner side surface of the module mounting plate is mounted on the surface of a load-bearing object, the isolation grounding module is mounted on the upper part of the outer side surface of the module mounting plate, the circuit breaker module is mounted on the lower part of the outer side surface of the module mounting plate, and the five-prevention interlocking module is mounted on the outer sides of the isolation grounding module and the circuit breaker module;

the lateral surface of circuit breaker module installs: the energy storage device comprises an opening coil, a closing coil, an opening button, a closing button, an opening rotating shaft, a closing rotating shaft and an energy storage motor; the opening coil is linked with the opening rotating shaft through the opening button; and the closing coil is linked with the closing rotating shaft through the closing button.

2. The novel circuit breaker isolating grounding mechanism device of claim 1, wherein: and the opening rotating shaft and the closing rotating shaft extend to the inner side surface of the breaker module.

3. The novel circuit breaker isolating grounding mechanism device of claim 2, wherein: the medial surface of circuit breaker module is provided with: the energy storage device comprises a cam, an energy storage rotating shaft, an energy storage gear, a main transmission shaft, a main transmission gear, a main transmission connecting lever, a brake separating limit connecting lever, a limit boss, a brake closing limit connecting lever, a brake closing spring, a brake separating spring and a main transmission connecting rod; the energy storage rotating shaft, the main transmission connecting lever, the brake separating limit connecting lever and the brake closing limit connecting lever can rotate around the self shafts; the energy storage gear is fixed on the energy storage rotating shaft and is driven to rotate by the energy storage motor; the cam and the main transmission gear are fixed on the main transmission shaft and can rotate around the main transmission shaft; the limiting boss is fixed on the end face of the main transmission gear and is static relative to the main transmission gear; the cam and the main transmission gear rotate synchronously, the main transmission shaft is linked with the closing spring, and the main transmission crank arm is linked with the main transmission connecting rod.

4. The novel circuit breaker isolating grounding mechanism device of claim 1, wherein: the isolation grounding module includes: the device comprises an isolation operation rotating shaft, a grounding operation rotating shaft, a gearbox output shaft, a main gear, a first auxiliary gear, a first transition gear, a second auxiliary gear and a second transition gear, wherein the isolation operation rotating shaft and the grounding operation rotating shaft are arranged on the upper surface of the gearbox; one end of the output shaft of the gearbox is arranged on the lower surface of the gearbox, the other end of the output shaft of the gearbox is provided with a main gear, a first transition gear and a second transition gear are respectively arranged on two sides of the main gear, and the first transition gear and the second transition gear are respectively meshed with the main gear; a first auxiliary gear meshed with the first transition gear is arranged on the other side of the first transition gear; a second auxiliary gear meshed with the second transition gear is arranged on the other side of the second transition gear; the main gear, the first pinion, the first transition gear, the second pinion and the second transition gear are all mounted on the module mounting plate.

Images