CN216389220U - Indicating device of circuit breaker operating mechanism - Google Patents

Abstract

The application relates to an indicating device of a circuit breaker operating mechanism, which relates to the technical field of electrical equipment, and the technical scheme mainly comprises an energy storage indicating assembly for indicating the energy storage state of an energy storage device and an opening and closing indicating piece for indicating the opening and closing states of the operating mechanism, wherein the opening and closing indicating piece longitudinally slides on a right side plate and is connected with a locking device of the operating mechanism; the energy storage indicating assembly comprises an energy storage indicating plate and an energy storage indicating rocker arm, the energy storage indicating plate longitudinally slides and is arranged on a left side plate used for supporting the operating mechanism, the energy storage indicating rocker arm is rotatably arranged on the left side plate, an indicating driving cam used for driving the energy storage indicating rocker arm to rotate is arranged on an energy storage device of the operating mechanism, one end of the energy storage indicating rocker arm is abutted to the outer periphery of the indicating driving cam, and the other end of the energy storage indicating rocker arm is rotatably connected with the energy storage indicating plate. The device has the advantages of simple structure, simple forming and stable operation.

Description

Indicating device of circuit breaker operating mechanism

Technical Field

The application relates to the technical field of electrical equipment, in particular to an indicating device of a circuit breaker operating mechanism.

Background

At present, a circuit breaker refers to a switching device capable of closing, carrying, and opening/closing a current under a normal circuit condition and closing, carrying, and opening/closing a current under an abnormal circuit condition within a prescribed time. The opening and closing actions of the circuit breaker are realized through an operating mechanism, and the closing and opening operations of the circuit breaker are realized through the linkage of the operating mechanism and a main shaft on the circuit breaker.

The energy storage indication of the traditional circuit breaker operating mechanism is that the indicating plate is driven by the shaft to rotate, so that the indication is switched, and the existing indicating device is complex in structure and needs to be improved due to the fact that other structures are needed for linkage in the limitation of the rotating mode.

SUMMERY OF THE UTILITY MODEL

In order to simplify the structure of the indicating device of the circuit breaker, the application provides the indicating device of the circuit breaker operating mechanism.

The application provides a circuit breaker operating device's indicating device adopts following technical scheme:

an indicating device of a circuit breaker operating mechanism comprises an energy storage indicating assembly for indicating the energy storage state of an energy storage device and a switching-on and switching-off indicating piece for indicating the switching-on and switching-off states of the operating mechanism, wherein the switching-on and switching-off indicating piece longitudinally slides on a right side plate and is connected with a locking device of the operating mechanism; the energy storage indicating assembly comprises an energy storage indicating plate and an energy storage indicating rocker arm, wherein the energy storage indicating plate longitudinally slides and is arranged on a left side plate used for supporting the operating mechanism, the energy storage indicating rocker arm is rotationally arranged on the left side plate, an energy storage device of the operating mechanism is provided with an indicating driving cam used for driving the energy storage indicating rocker arm to rotate, one end of the energy storage indicating rocker arm is abutted to the outer periphery of the indicating driving cam, and the other end of the energy storage indicating rocker arm is rotationally connected with the energy storage indicating plate.

Through adopting above-mentioned technical scheme, instruct the rocking arm and set up the linkage of instruction drive cam on energy memory through energy storage indicator board and energy storage, realize instructing the energy storage state on the energy memory, will switch through vertical sliding and instruct to replace traditional rotatory switching instruction, the structure of this application is simpler, and occupation space is little, easily shaping.

Preferably, an energy storage indication support piece used for installing an energy storage indication plate is arranged on the left side plate, the energy storage indication plate slides on the energy storage indication support piece, and the energy storage indication rocker arm is rotatably arranged on the energy storage indication support piece.

Through adopting above-mentioned technical scheme, instruct support piece to install the energy storage indicator panel through setting up the energy storage on the left side board, the vertical installation that slides of the energy storage indicator panel of being convenient for.

Preferably, the energy storage indicating plate is provided with at least two second guide shafts, the energy storage indicating support member is provided with a second sliding groove for sliding of each second guide shaft, the energy storage indicating rocker arm is rotatably connected with any one of the second guide shafts, and the energy storage indicating rocker arm is further provided with a waist-shaped hole for sliding of the corresponding second guide shaft.

Through adopting above-mentioned technical scheme, through the cooperation of the second guide shaft on the energy storage indicator board and the second groove of sliding on the support piece is instructed in the energy storage for the energy storage indicator board vertically slides on support piece is instructed in the energy storage more stably.

Preferably, the energy storage indicating plate and the energy storage indicating support piece are formed by bending metal plates.

Through adopting above-mentioned technical scheme, energy storage indicator board and energy storage indicate support piece shaping is simple, saves the contour machining cost of work piece.

Preferably, the energy storage device further comprises an energy storage indication return spring, one end of the energy storage indication return spring is connected with the energy storage indication support plate, and the other end of the energy storage indication return spring is connected with one end, far away from the energy storage indication plate, of the energy storage indication rocker arm.

Through adopting above-mentioned technical scheme, instruct reset spring to come supplementary cooperation energy storage to instruct the rocking arm rotation to reset through the energy storage, utilize the effort that reset spring was instructed in the energy storage to come supplementary realization energy storage indicating device's automatic switch-over operation.

Preferably, the energy storage indicating rocker arm is provided with an indicating limiting shaft at one end abutted against the indicating driving cam, and the peripheral side of the indicating limiting shaft is abutted against the peripheral side of the indicating driving cam.

Through adopting above-mentioned technical scheme, be provided with on the energy storage instructs the rocking arm and instruct spacing axle and instruct the drive cam to be connected, further improve the energy storage and instruct the rocking arm and instruct the area of contact of drive cam for it is more stable to be connected between energy storage instructs the rocking arm and instructs the drive cam.

Preferably, the indication driving cam comprises a convex part and an inner concave part, and an arc part used for quickly lifting the energy storage indication rocker arm is arranged at the joint of the inner concave part and the convex part.

Through adopting above-mentioned technical scheme, will realize never storing energy to the jump nature switching of energy storage state on the energy storage indicator board through being provided with arc portion on the cam.

In summary, the present application includes at least one of the following beneficial technical effects:

the energy storage indicating device has the advantages that the purpose of lifting switching indication is achieved by arranging the energy storage indicating plate, the energy storage indicating rocker arm and the indication driving cam, and the energy storage indicating device is simple in structure, small in occupied space and simple in forming;

support piece, energy storage indication reset spring, second guiding axle, second groove, the spacing axle of sliding of instruction are instructed through setting up the energy storage, all with further improvement energy storage indicating device each parts joint strength and stability within a definite time.

Drawings

Fig. 1 is a left side view of a circuit breaker according to an embodiment of the present application after hiding a side plate;

fig. 2 is a schematic view of the installation of the circuit breaker operating mechanism in the embodiment of the present application;

fig. 3 is a schematic view of the overall structure of the circuit breaker operating mechanism in the embodiment of the present application;

figure 4 is an exploded schematic view of the circuit breaker operating mechanism in an embodiment of the present application;

fig. 5 is a schematic structural view of an energy storage device of a circuit breaker operating mechanism in an embodiment of the present application;

fig. 6 is a schematic structural view from another perspective of the circuit breaker operating mechanism in the embodiment of the present application;

figure 7 is a schematic diagram of the energy storage indicating assembly of the circuit breaker operating mechanism of the present application;

fig. 8 is a schematic structural view of a switching-off device of a circuit breaker operating mechanism in the embodiment of the present application;

fig. 9 is a schematic structural diagram of a closing device of a circuit breaker operating mechanism in an embodiment of the present application;

fig. 10 is a schematic structural view of a latch device of the circuit breaker operating mechanism in the embodiment of the present application.

Reference numerals: 1. an operation panel; 2. an operating mechanism; 3. a main shaft; 4. a link mechanism; 5. a chassis truck; 6. a housing; 61. a first side plate; 62. a second side plate; 63. a side plate support shaft; 7. an energy storage device; 71. a drive module; 711. an energy storage motor; 712. a first gear; 713. a transmission gear; 714. an energy storage gear; 715. an energy storage handle; 716. an energy storage connecting rod; 717. an energy storage transmission crank arm; 718. an energy storage transmission shaft; 719. a second gear; 72. an energy storage module; 721. an energy storage shaft; 722. an energy storage crank arm; 723. an energy storage spring; 73. a limiting module; 731. a ratchet wheel; 732. a pawl; 733. a compression spring; 734. the pawl releases the limit shaft; 8. a brake separating device; 81. a brake-separating trip coil; 82. a brake separating and tripping push plate; 83. a brake-separating tripping half shaft; 84. a brake separating and releasing plate; 85. a trip plate return spring; 86. a manual brake-separating push rod; 9. a switching-on device; 91. a closing trip coil; 92. a closing tripping push plate; 93. closing and tripping latch; 94. a closing tripping half shaft; 95. a closing drive cam; 96. a pawl limiting shaft; 97. a latch return spring; 98. a manual closing push rod; 10. a locking device; 101. a closing locking component; 1011. a closing locking sliding plate; 1012. a top rod; 102. a handcart locking assembly; 1021. a first locking slide plate; 1022. a closing lock drives the swing rod; 1023. a handcart locking sliding plate; 11. an indicating device; 111. an energy storage indicating assembly; 1111. an energy storage indicating support; 1112. an energy storage indicator board; 1113. an energy storage indicating rocker arm; 1114. an energy storage indicating return spring; 1115. an indication driving cam; 11151. a male portion; 11152. an inner concave portion; 11153. an arc-shaped portion; 112. a switching-on and switching-off indicator; 12. a first inner bending plate; 13. a second inner bending plate; 14. a first crank arm; 15. a second crank arm; 16. hanging a shaft; 17. an energy storage signal auxiliary switch; 18. a first guide shaft; 19. a first sliding groove; 20. a second guide shaft; 21. a second sliding groove; 22. indicating a limiting shaft; 23. a yielding groove; 24. a brake-separating push rod limiting groove; 25. closing a push rod limiting groove; 26. a third guide shaft; 27. a fourth guide shaft; 28. a third sliding groove; 29. a fourth sliding groove; 30. a fifth guide shaft; 31. a sixth guide shaft; 32. a counter; 33. and a limiting plate.

Detailed Description

Referring to fig. 1 and 2, the conventional circuit breaker mainly includes an operation panel 1, an operation mechanism 2, a main shaft 3, a link mechanism 4, a moving contact and a static contact (not shown in the figure), the operation panel 1 is disposed on one side surface of the circuit breaker, a button for operating the operation mechanism 2 is disposed on the operation panel 1, a user controls the operation mechanism 2 to perform switching-off and switching-on operations by operating the button on the operation panel 1, a chassis 5 is further disposed on the lower side of the circuit breaker, when the chassis 5 is in a test isolation or working position, the circuit breaker can be switched on, and after the circuit breaker is switched on, the chassis 5 is in a locked state, so that a fault-on and fault-off contact with a load can be prevented; after a closing button on the operation panel 1 is pressed, the operation mechanism 2 drives the main shaft 3 to rotate, the main shaft 3 drives the link mechanism 4 to move, and then a moving contact on the link mechanism 4 is contacted with a static contact, so that closing operation of the circuit breaker is realized; after the opening button on the operation panel 1 is pressed, the operation mechanism 2 controls the main shaft 3 to rotate reversely, the main shaft 3 drives the moving contact to be disconnected from the static contact under the linkage action of the link mechanism 4, and the opening operation of the circuit breaker is realized. The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses circuit breaker operating device. Referring to fig. 2 and 3, the operating mechanism 2 includes a housing 6, an energy storage device 7, a switching device 8, a switching device 9, a locking device 10, and an indicating device 11. The shell 6 is used for installing a closing device 9, an opening device 8, an energy storage device 7, a locking device 10 and an indicating device 11; the switching-on device 9 and the switching-off device 8 are respectively linked with the main shaft 3 on the circuit breaker to complete the switching-on and switching-off operations of the circuit breaker; the energy storage device 7 is linked with the closing device 9 and assists the closing device 9 to complete closing operation by releasing self energy storage; the locking device 10 comprises a closing locking assembly 101 and a handcart locking assembly 102, the handcart locking assembly 102 is linked with the spindle 3 to prevent the chassis 5 from being separated from a working position when the circuit breaker is in a closing state, and the closing locking assembly 101 is linked with the handcart locking assembly 102 to prevent the circuit breaker from performing secondary closing operation when the circuit breaker is in the closing state; the indicating device 11 comprises an energy storage indicating component 111 and a switching-on/off indicating component 112, the energy storage indicating component 111 is linked with the energy storage device 7 and indicates the energy storage state on the energy storage device 7, and the switching-on/off indicating component 112 is linked with the handcart locking component 102 and indicates the switching-on or switching-off state of the operating mechanism 2. Specifically, each structural component of the operating mechanism 2 is simple and easy to mold, and can be manufactured and molded by metal.

Referring to fig. 2 and 3, the housing 6 includes a first side plate 61 and a second side plate 62 which are arranged oppositely, and a side plate supporting shaft 63 through which a plurality of pieces are connected between the first side plate 61 and the second side plate 62, one side of the first side plate 61, which is close to the second side plate 62, is inwardly bent to be provided with a first inner bending plate 12 which is convenient for installation of the switching-off device 8, one side of the second side plate 62, which is close to the first inner bending plate 12, is provided with a second inner bending plate 13 which is convenient for installation of the switching-on device 9, the second inner bending plate 13 and the first inner bending plate 12 are arranged oppositely on the same side, and the first inner bending plate 12 and the second inner bending plate 13 are respectively arranged with the first side plate 61 and the second side plate 62 in an integrated manner. The first inner bending plate 12 and the second inner bending plate 13 are both located on the upper side of the main shaft 3.

Referring to fig. 2 and 3, a first crank arm 14 and a second crank arm 15, which are respectively in linkage fit with the opening device 8 and the closing device 9, are fixedly arranged on the main shaft 3, the first crank arm 14 is located at the lower side of the opening device 8, and the second crank arm 15 is located at the lower side of the closing device 9.

Referring to fig. 4 and 5, the energy storage device 7 includes a driving module 71, an energy storage module 72, and a limiting module 73; the driving module 71 comprises an energy storage motor 711, a first gear 712, a transmission gear 713 and an energy storage gear 714, the energy storage module 72 comprises an energy storage shaft 721, an energy storage crank 722 and an energy storage spring 723, and the limiting module 73 comprises a ratchet wheel 731, a pawl 732, a compression spring 733 and a pawl release limiting shaft 734.

Specifically, referring to fig. 4 and 5, an energy storage motor 711 is installed outside the first side plate 61, a first gear 712 is coaxially fixed to one end of an output shaft of the energy storage motor 711, which extends into the first side plate 61, the first gear 712 is in meshing transmission with a transmission gear 713, the transmission gear 713 is rotatably installed on the first side plate 61, the transmission gear 713 is in meshing transmission with an energy storage gear 714, the energy storage gear 714 is coaxially rotatably installed on an energy storage shaft 721, the energy storage shaft 721 is rotatably installed between the first side plate 61 and the second side plate 62, two ends of an axis of the energy storage shaft 721 are fixedly installed through a snap spring, an energy storage crank 722 is fixed to one side of the energy storage shaft 721, one end of an energy storage spring 723 is rotatably connected with an eccentric end of the energy storage crank 722, and a hanging shaft 16 for hanging the other end of the energy storage spring 723 is installed on the first side plate 61.

Referring to fig. 4 and 6, a ratchet wheel 731 is coaxially fixed on the energy storage shaft 721 and located on one side of the energy storage gear 714 close to the first side plate 61, a pawl 732 is rotatably mounted on an eccentric position of the energy storage gear 714, a pressing spring 733 is mounted on the energy storage gear 714 for pressing one section of the pawl 732 against the outer periphery of the ratchet wheel 731, and a pawl release limiting shaft 734 is fixed on one side of the first side plate 61 close to the second side plate 62. Specifically, one-way bearings are respectively sleeved in the first gear 712 and the transmission gear 713. The first side plate 61 is further provided with an energy storage signal auxiliary switch 17 at the lower side of the energy storage crank arm 722 for detecting the energy storage state of the energy storage device 7 and outputting a signal.

The energy storage device 7 realizes energy storage operation in an electric driving mode, and the specific implementation mode is as follows: the energy storage motor 711 drives the first gear 712 to rotate, and drives the energy storage gear 714 to rotate under the transmission of the transmission gear 713, the rotating energy storage gear 714 drives the pawl 732 to push the ratchet wheel 731 to rotate, the ratchet wheel 731 drives the energy storage shaft 721 and the energy storage crank 722 thereon to rotate until the energy storage crank 722 pulls the energy storage spring 723 to a position of a full energy storage state, at this time, one end of the pawl 732, which is far away from the ratchet wheel 731, is just abutted to the pawl release limiting shaft 734, after the energy storage gear 714 continues to rotate, the pawl 732 releases the pushing action on the ratchet wheel under the action of the pawl release limiting shaft 734, and the energy storage gear 714 continues to rotate to act on the energy storage shaft 721 to prevent energy storage failure.

Referring to fig. 4 and 5, the driving module 71 further includes an energy storage handle 715, an energy storage link 716, an energy storage transmission connecting lever 717, an energy storage transmission shaft 718, and a second gear 719. One end of an energy storage handle 715 is rotatably mounted on the outer side of the second side plate 62, one end of an energy storage connecting rod 716 is rotatably connected with the energy storage handle 715, the other end of the energy storage connecting rod 716 is rotatably connected with an energy storage transmission connecting lever 717, the energy storage connecting rod 716 is further provided with a waist-shaped hole for the energy storage transmission connecting lever 717 to slide, the energy storage transmission connecting lever 717 is fixedly arranged at one end of an energy storage transmission shaft 718, the energy storage transmission shaft 718 is rotatably mounted on the first side plate 61 and the second side plate 62, a second gear 719 is coaxially fixed on the energy storage transmission shaft 718, and the second gear 719 and the transmission gear 713 are meshed. Specifically, the energy storage transmission shaft 718 is coaxially sleeved with a one-way bearing, and the second gear 719 is coaxially sleeved on an outer wall of the one-way bearing.

Further, as shown in fig. 4 and 5, a first guide shaft 18 is further fixedly disposed on the energy storage handle 715, a first sliding groove 19 for allowing the first guide shaft 18 to slide is further disposed on the second side plate 62, a return spring for driving the energy storage handle 715 to return is further mounted on the energy storage handle 715, the return spring is sleeved on a rotating shaft of the energy storage handle 715 rotating to the second side plate 62, one end of the return spring abuts against the first guide shaft 18, and the other end of the return spring abuts against the second side plate 62.

The energy storage device 7 realizes the effect of manual energy storage through the energy storage handle 715, the energy storage connecting rod 716, the energy storage transmission connecting lever 717, the energy storage transmission shaft 718 and the second gear 719, so that the energy storage operation can be performed under the power-off condition; the specific implementation mode is as follows: the energy storage handle 715 is shaken downwards, the energy storage handle 715 pulls the energy storage connecting rod 716, the energy storage connecting rod 716 pulls the energy storage transmission connecting lever 717 to rotate, the energy storage transmission shaft 718 is driven to rotate, the energy storage transmission shaft 718 drives the second gear 719 to rotate, and the second gear 719 drives the transmission gear 713 to rotate, so that the energy storage operation effect of the manual driving energy storage device 7 is achieved.

Referring to fig. 5 and 7, the energy storage indicating assembly 111 includes an energy storage indicating support 1111, an energy storage indicating plate 1112, an energy storage indicating rocker arm 1113, an energy storage indicating return spring 1114, and an indicating drive cam 1115.

Specifically, the instruction drive cam 1115 is fixed to the energy storage shaft 721; the energy storage indication supporting member 1111 is fixed to the first side plate 61, at least two second guiding shafts 20 are arranged on the energy storage indication plate 1112 along the height direction, two second guiding shafts 20 are provided in the embodiment, and a second sliding groove 21 for allowing each second guiding shaft 20 to slide longitudinally is provided on the energy storage indication supporting member 1111. The energy storage indicating rocker arm 1113 is rotationally fixed on the energy storage indicating support member 1111 through a pin shaft, one end of the energy storage indicating rocker arm 1113 is sleeved on one of the second guide shafts 20, a waist-shaped hole for the second guide shaft 20 to slide is formed in the end of the energy storage indicating rocker arm 1113, and one end of the energy storage indicating rocker arm 1113, which is far away from the second guide shaft 20, is provided with an indicating limit shaft 22 which is abutted to the circumferential side edge of the indicating driving cam 1115. One end of the energy storage indicating return spring 1114 is connected with the energy storage indicating support 1111, and the other end is connected with one end of the energy storage indicating rocker 1113 far away from the second guide shaft 20.

Further, the indication driving cam 1115 comprises a male part 11151 and a female part 11152, and an arc part 11153 for quickly lifting the energy storage indication rocker arm 1113 is arranged at the joint of the female part 11152 and the male part 11151, so that the jumping switching from the energy storage state to the energy storage state on the energy storage indication plate 1112 is realized.

The specific implementation of the energy storage indicating component 111 is as follows: when the energy storage device 7 is in an energy storage state, the indication limiting shaft 22 is pushed to the convex part 11151 of the indication driving cam 1115, and the second guide shaft 20 is positioned at the lower end of the second sliding groove 21; during closing, the energy storage shaft 721 drives the indication driving cam 1115 to rotate, the indication limiting shaft 22 slides to the concave part 11152 of the indication driving cam 1115, the energy storage indication rocker arm 1113 rotates under the action of the energy storage indication return spring 1114, and simultaneously drives the second guide shaft 20 and the energy storage indication plate 1112 to ascend, so that the indication state of the energy storage indication plate 1112 is switched from stored energy to non-stored energy; during energy storage, the energy storage shaft 721 rotates and drives the indication driving cam 1115 to rotate, so that the indication limiting shaft 22 slides and rises to the convex part 11151 of the indication driving cam 1115 from the concave part 11152 of the indication driving cam 1115 through the arc part 11153, meanwhile, the indication driving cam 1115 drives the energy storage indication rocker arm 1113 to rotate, the energy storage indication rocker arm 1113 drives the energy storage indication plate 1112 to descend, and switching from the indication state of the energy storage indication plate 1112 from the non-energy storage state to the energy storage state is achieved.

Referring to fig. 4 and 8, the opening device 8 includes an opening trip coil 81, an opening trip push plate 82, an opening trip half shaft 83, an opening trip plate 84, and a trip plate return spring 85.

Specifically, the opening tripping half shaft 83 penetrates and rotates on the first side plate 61, the first inner bending plate 12 and the second inner bending plate 13, the lower end of the opening tripping push plate 82 is fixedly connected with the opening tripping half shaft 83 through a pin shaft, the opening tripping push plate 82 is located between the first side plate 61 and the first inner bending plate 12, the opening tripping coil 81 is electrified to push the opening tripping push plate 82 to rotate backwards, and the opening tripping half shaft 83 is further sleeved with a reset spring for driving the opening tripping push plate 82 to reset; the opening tripping plate 84 is rotatably arranged between the first inner bending plate 12 and the second inner bending plate 13, the tripping plate reset spring 85 is sleeved on a rotating shaft of the opening tripping plate 84, and the opening groove 23 for the upper end of the opening tripping plate 84 to pass through is formed in the opening tripping half shaft 83. During closing, the upper end of the opening tripping plate 84 abuts against the opening tripping half shaft 83, during opening, the opening tripping push plate 82 drives the opening tripping half shaft 83 to rotate, so that the opening tripping half shaft 83 realizes the effect of relieving the abutting effect of the opening tripping plate 84 by utilizing the abdicating effect of the abdicating groove 23, the lower end of the rotating opening tripping plate 84 relieves the abutting effect of the first crank arm 14, and the main shaft 3 rotates under the effect of an opening spring (not marked in the figure) to realize opening operation.

Further, the brake separating device 8 further comprises a manual brake separating push rod 86, the manual brake separating push rod 86 transversely slides and is arranged on the first side plate 61, a guide shaft is fixedly arranged on the first side plate 61 and slides onto the manual brake separating push rod 86, a waist-shaped hole for sliding of the guide shaft is formed in the manual brake separating push rod 86, a brake separating push rod limiting groove 24 is formed in one end, close to the brake separating tripping push plate 82, of the manual brake separating push rod 86, the manual brake separating push rod 86 is pushed to push the brake separating tripping push plate 82 to rotate backwards, and therefore the effect of manually driving brake separating operation is achieved.

Referring to fig. 4 and 9, the closing device 9 includes a closing trip coil 91, a closing trip push plate 92, a closing trip pawl 93, a closing trip half shaft 94, a closing drive cam 95, a pawl limit shaft 96, and a pawl return spring 97.

Specifically, the closing trip coil 91 is electrified to push the closing trip push plate 92 backwards to retreat, the lower end of the closing trip push plate 92 is fixed to a closing trip pawl 93, the closing trip pawl 93 is rotatably arranged between the second side plate 62 and the second inner bending plate 13 through a closing trip half shaft 94, the closing drive cam 95 is fixed to the energy storage shaft 721, the pawl limiting shaft 96 is fixed to the closing drive cam 95, and when the closing trip is in an opening state, the upper end of the closing trip pawl 93 is abutted to the pawl limiting shaft 96 to limit the closing drive cam 95 to perform rotary closing operation. The second side plate 62 is further provided with a limit plate 33 for limiting the forward rotation position of the closing trip push plate 92. A support plate for mounting the closing trip coil 91 and the opening trip coil 81 is fixed between the first side plate 61 and the second side plate 62.

When the closing operation is performed, the closing trip coil 91 is energized to push the closing trip push plate 92 to retreat, the closing trip push plate 92 drives the closing trip pawl 93 to rotate, the limiting effect of the closing trip pawl 93 on the closing drive cam 95 is removed, the closing drive cam 95 rotates the energy storage consumed on the energy storage device 7 downwards and presses the second crank arm 15 downwards, and then the main shaft 3 is driven to rotate to complete the closing operation.

Further, the closing device 9 further includes a manual closing push rod 98, the manual closing push rod 98 transversely slides and is disposed on the second side plate 62, a guide shaft is fixedly disposed on the second side plate 62 and slides and is fixed to the manual closing push rod 98, a kidney-shaped hole for sliding of the guide shaft is formed in the manual closing push rod 98, a closing push rod limiting groove 25 is formed in one end, close to the closing tripping push plate 92, of the manual closing push rod 98, the manual closing push rod 98 is pushed to push the closing tripping push plate 92 to rotate backwards, and therefore the effect of manually driving closing operation is achieved.

Referring to fig. 4 and 10, the hand truck lockout assembly 102 includes a first lockout slide plate 1021, a closing lockout drive swing link 1022, and a hand truck lockout slide plate 1023.

Specifically, at least two guide shafts are longitudinally arranged on the second side plate 62, in this embodiment, the third guide shaft 26 and the fourth guide shaft 27 are sequentially arranged on the second side plate 62 from top to bottom along the height direction, the first locking sliding plate 1021 is longitudinally slidably arranged on the inner side of the second side plate 62, a waist-shaped hole for sliding the third guide shaft 26 and the fourth guide shaft 27 is formed in the first locking sliding plate 1021, a return spring for pulling the first locking sliding plate 1021 to reset is further arranged on the first locking sliding plate 1021, one end of the return spring is connected with the upper end of the first locking sliding plate 1021, and the other end of the return spring is connected with the second side plate 62. The handcart locking sliding plate 1023 is longitudinally fixed on the third guide shaft 26 and the fourth guide shaft 27 in a sliding mode, and a kidney-shaped hole for the sliding arrangement of the third guide shaft 26 and the fourth guide shaft 27 is formed in the handcart locking sliding plate 1023; the closing locking driving swing rod 1022 is rotatably disposed on the third guide shaft 26, a third sliding groove 28 and a fourth sliding groove 29 are formed in the closing locking driving swing rod 1022, a fifth guide shaft 30 which slides in the third sliding groove 28 is fixedly disposed on the first locking sliding plate 1021, a sixth guide shaft 31 which slides in the fourth sliding groove 29 is fixedly disposed on the handcart locking sliding plate 1023, and a return spring which drives the closing locking driving swing rod 1022 to reset is further sleeved on the third guide shaft 26.

Referring to fig. 4 and 9, the opening and closing indicator 112 is an opening and closing indicator plate longitudinally sliding on the second side plate 62, a kidney-shaped hole for sliding the opening and closing indicator plate is formed in the second side plate 62, and the lower end of the opening and closing indicator plate is connected with the upper end of the first locking sliding plate 1021.

Further, as shown in fig. 4 and 9, a counter 32 is further installed on the energy storage indication support 1111, a spring connected to the opening and closing indication plate is installed on the counter 32, and the counter 32 is provided to facilitate a worker to observe and obtain the number of closing operations of the entire operating mechanism 2.

Referring to fig. 4 and 9, the closing locking assembly 101 includes a closing locking sliding plate 1011 and a top bar 1012, the closing locking sliding plate 1011 slides longitudinally on the inner side of the second side plate 62, and a return spring for pulling the closing locking sliding plate 1011 to return downwards is further mounted on the second side plate 62; the top rod 1012 is slidably mounted at the lower end of the closing locking sliding plate 1011, a return spring for driving the top rod 1012 to reset is further sleeved on the top rod 1012, the upper end of the return spring is propped against the closing locking sliding plate 1011, and the lower end of the return spring is propped against the top rod 1012. During closing, the closing blocking driving swing rod 1022 rotates and pushes the top rod 1012 upwards, and drives the closing blocking sliding plate 1011 to ascend, so that the upper end of the closing blocking sliding plate 1011 is located on one side of the closing tripping pushing plate 92, which is far away from the limiting plate 33, and the closing tripping pushing plate 92 is limited to retreat, thereby preventing the circuit breaker from performing secondary closing operation in a closing state.

The overall embodiment of the locking device 10 is: when the handcart is switched on, the second crank arm 15 presses the first locking sliding plate 1021, the first locking sliding plate 1021 moving downwards pulls the switching-on and switching-off indicating plate to jump to a switching-on indicating state, the fifth guide shaft 30 on the first locking sliding plate 1021 slides to the lower end along the upper end of the third sliding groove 28, the switching-on locking driving swing rod 1022 is driven to rotate upwards to push the ejector rod 1012, the fifth guide shaft 30 presses the handcart locking sliding plate 1023 downwards to move downwards, and meanwhile, the sixth guide shaft 31 slides to the lower end from the upper end of the fourth sliding groove 29; and then the top rod 1012 drives the closing locking sliding plate 1011 to slide upwards to limit the closing tripping push plate 92, and the handcart locking sliding plate 1023 slides downwards to limit the chassis 5.

The implementation principle of the circuit breaker operating mechanism 2 in the embodiment of the application is as follows:

when the switch is closed, the manual switch-on push rod 98 or the switch-on trip coil 91 drives the switch-on trip push plate 92 to retreat, the switch-on trip push plate 92 drives the switch-on trip pawl 93 to rotate and removes the restriction effect on the switch-on drive cam 95, the switch-on drive cam 95 rotates downwards and drives the energy storage shaft 721 to rotate, the switch-on drive cam 95 rotating downwards presses the second crank arm 15 downwards, and the second crank arm 15 drives the main shaft 3 to rotate to complete the switch-on operation; when the switch is closed, the second crank arm 15 presses the first locking sliding plate 1021 downwards, the first locking sliding plate 1021 drives the handcart locking sliding plate 1023 to move downwards under the linkage action, the switch-on locking driving swing rod 1022 rotates to push the top rod 1012 upwards, and the switch-on locking sliding plate 1011 is driven to limit the switch-on tripping push plate 92 upwards to carry out secondary switch-on;

during brake opening, the manual brake opening push rod 86 or the brake opening tripping coil 81 drives the brake opening tripping push plate 82 to retreat, the brake opening tripping push plate 82 drives the brake opening tripping half shaft 83 to rotate, the brake opening tripping plate 84 gives way, the brake opening tripping plate 84 rotates and releases the pressing effect on the first crank arm 14, and the main shaft 3 rotates under the effect of the brake opening spring to perform brake opening operation; at the same time, the second crank arm 15 releases the pressing action on the first locking sliding plate 1021, the first locking sliding plate 1021 rises under the action of the return spring, the opening and closing indicating plate switches the synchronous rising to the opening indication, and under the action of the closing locking driving swing rod 1022, the first locking sliding plate 1021 and the handcart locking sliding plate 1023, the action on the closing locking sliding plate 1011 is released, so that the closing locking sliding plate 1011 moves downwards under the action of the return spring, and the limiting action on the closing locking tripping push plate 92 is released.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. An indicating device of a circuit breaker operating mechanism is characterized in that: the energy storage indicating device comprises an energy storage indicating assembly (111) for indicating the energy storage state of an energy storage device (7) and a switching-on and switching-off indicating piece (112) for indicating the switching-on and switching-off states of an operating mechanism (2), wherein the switching-on and switching-off indicating piece (112) slides on a right side plate longitudinally and is connected with a locking device (10) of the operating mechanism (2); energy storage indicating assembly (111) includes energy storage indicator board (1112) and energy storage indication rocker arm (1113), energy storage indicator board (1112) vertically slide and set up on being used for supporting operating device (2) left side board, energy storage indication rocker arm (1113) rotate and set up on the left side board, in be provided with on energy storage device (7) of operating device (2) and be used for driving energy storage indication rocker arm (1113) pivoted instruction drive cam (1115), wherein one end and instruction drive cam (1115) outer peripheral butt of energy storage indication rocker arm (1113), the other end and energy storage indicator board (1112) of energy storage indication rocker arm (1113) rotate and be connected.

2. The indicating device of a circuit breaker operating mechanism as claimed in claim 1, wherein: support piece (1111) is instructed in the energy storage that is provided with on the left side board and is used for installing energy storage indicator board (1112), support piece (1111) is instructed in the energy storage to energy storage indicator board (1112) slide on, rocking arm (1113) is instructed in the energy storage and is rotated and set up on support piece (1111) is instructed in the energy storage.

3. The indicating device of the circuit breaker operating mechanism as claimed in claim 2, wherein: be provided with two piece at least second guiding axles (20) on energy storage indicator board (1112), set up the second groove (21) that slides that supplies each second guiding axle (20) to slide on energy storage indicator support piece (1111), rocking arm (1113) is connected with arbitrary second guiding axle (20) rotation of wherein is instructed in the energy storage, still be provided with the waist shape hole that supplies to correspond second guiding axle (20) and slide on energy storage indicator rocking arm (1113).

4. The indicating device of the circuit breaker operating mechanism as claimed in claim 2, wherein: the energy storage indicating plate (1112) and the energy storage indicating support piece (1111) are formed by bending metal plates.

5. The indicating device of the circuit breaker operating mechanism as claimed in claim 2, wherein: the energy storage device (7) further comprises an energy storage indication return spring (1114), one end of the energy storage indication return spring (1114) is connected with the energy storage indication plate (1112), and the other end of the energy storage indication return spring is connected with one end, far away from the energy storage indication plate (1112), of the energy storage indication rocker arm (1113).

6. The indicating device of a circuit breaker operating mechanism as claimed in claim 1, wherein: one end of the energy storage indicating rocker arm (1113) abutted to the indicating driving cam (1115) is provided with an indicating limiting shaft (22), and the peripheral side of the indicating limiting shaft (22) is abutted to the peripheral side of the indicating driving cam (1115).

7. The indicating device of the circuit breaker operating mechanism as recited in claim 6, wherein: the indication driving cam (1115) comprises a male portion (11151) and an inner concave portion (11152), and an arc portion (11153) used for quickly lifting the energy storage indication rocker arm (1113) is arranged at the joint of the inner concave portion (11152) and the male portion (11151).

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