CN214624947U - Circuit breaker operating mechanism - Google Patents

Abstract

The utility model relates to a circuit breaker operating mechanism. The method specifically comprises the following steps: a housing; a mechanism host; an indicating structure is arranged on the shell; the indicating structure includes: the rotating part is in transmission connection with the main transmission shaft, is positioned outside the machine shell and is rotationally arranged around an axis vertical to the wall of the machine shell relative to the machine shell; the shifting pin is arranged on the rotating piece and is eccentrically arranged with the rotating shaft of the rotating piece; the shifting fork is rotatably assembled relative to the shell, and the rotating axis of the shifting fork is parallel to the rotating axis of the rotating part at intervals; the indicating piece is fixedly connected with the shifting fork and is positioned at the position of a rotating axis of the shifting fork; the shifting pin stretches into the shifting fork, and drives the indicating part to rotate to different circumferential positions by shifting the shifting fork when the shifting pin rotates along with the cam, and the indicating part can indicate that the mechanism host is in an energy storage ending state and an energy release finishing state at different positions. The utility model discloses a circuit breaker operating mechanism can rotate when different operating condition at final drive shaft through instructing the structure, accurately indicate final drive shaft's position state, avoids the maloperation.

Description

Circuit breaker operating mechanism

Technical Field

The utility model relates to a high tension switchgear technical field especially relates to a circuit breaker operating mechanism.

Background

The high-voltage circuit breaker is used as protection and control equipment of a power grid, the operation reliability of an operation mechanism of the high-voltage circuit breaker is very important, and the high-voltage circuit breaker is a key problem for power grid construction in order to ensure the reliability of the operation mechanism of the high-voltage circuit breaker and prevent high-voltage power transmission and distribution equipment from breaking down. At present, the operating mechanism of the high-voltage circuit breaker mostly adopts spring energy storage, but the mechanical energy storage structure can not directly display the energy storage state, so that misoperation of operators is easily caused, and certain potential safety hazard exists. Therefore, how to intuitively enable the operator to know the energy storage state of the operating mechanism also plays a very important role in the safe use of the operating mechanism.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a circuit breaker operating mechanism for solve current circuit breaker operating mechanism and can not show the energy storage state, influence the problem of safe handling.

The utility model discloses a circuit breaker operating mechanism includes:

a housing;

the mechanism host is arranged in the shell, is provided with a main transmission shaft and is used for storing energy and releasing energy to a moving contact of the circuit breaker so as to drive the moving contact to act;

an indicating structure is arranged on the shell;

the indicating structure includes:

the rotating part is in transmission connection with the main transmission shaft, is positioned outside the machine shell and is rotationally configured relative to the machine shell;

the shifting pin is arranged on the rotating piece and is eccentrically arranged with the rotating shaft of the rotating piece;

the shifting fork is rotatably assembled relative to the shell, and the rotating axis of the shifting fork is parallel to the rotating axis of the rotating part at intervals;

the indicating piece is fixedly connected with the shifting fork and is positioned at the position of a rotating axis of the shifting fork;

the shifting pin stretches into the shifting fork, and drives the indicating part to rotate to different circumferential positions by shifting the shifting fork when the shifting pin rotates along with the cam, and the indicating part can indicate that the mechanism host is in an energy storage ending state and an energy release finishing state at different positions.

The utility model discloses a circuit breaker operating mechanism can rotate when different operating condition at final drive shaft through instructing the structure, accurately indicate final drive shaft's position state, be in the energy storage completion state promptly or be in the energy release end state to give the accurate state of indicateing the circuit breaker of operating personnel, in order to guide it to carry out follow-up operation, avoid the maloperation.

Furthermore, the indicating structure comprises a transition transmission rod, the transition transmission rod is rotatably installed on the machine shell and penetrates through the shell wall of the machine shell, one end, located in the machine shell, of the transition transmission rod is in transmission connection with the main transmission shaft, and one end, located outside the machine shell, of the transition transmission rod is fixedly connected with the rotating piece. The transition transmission rod is in transmission connection with the main transmission shaft and transmits the posture of the main transmission shaft to the indicating piece, the length of the main transmission shaft can be shortened to a certain degree, the rotation stability of the main transmission shaft is improved,

furthermore, the indicating structure comprises a fixing frame, a shifting fork rotating shaft is connected to the shifting fork, the shifting fork rotating shaft is rotatably installed on the fixing frame, and the indicating piece is fixedly installed on the shifting fork rotating shaft. Therefore, the processing of the shell can be reduced as much as possible, the indicating structure is installed under the condition that the original shell structure of the circuit breaker is not changed as much as possible, and the design and manufacturing cost is reduced.

Furthermore, the fixing frame is a U-shaped frame comprising a bottom edge and two parallel edges, the end parts of the two parallel edges of the U-shaped frame are bent to form a connecting section, the U-shaped frame is fixedly connected with the shell wall of the shell through a fixing frame screw component penetrating through the connecting section, and the shifting fork rotating shaft is rotatably arranged on the bottom edge of the U-shaped frame in a penetrating mode. The U-shaped frame is simple in structure, stable and reliable in fixation, and reliable rotation of the indicating piece can be guaranteed.

Furthermore, the fixing frame further comprises a fixing block fixed on the bottom edge, and the shifting fork rotating shaft is rotatably installed on the fixing block. The rotating assembly length of the shifting fork rotating shaft is increased by arranging the fixing block, the stability of the shifting fork rotating shaft rotation is guaranteed, and the operation reliability of the structure is improved.

Furthermore, two ends of the shifting fork rotating shaft, which are positioned at two sides of the fixing frame, are extended in a suspending way, the shifting fork is positioned at one side of the fixing frame, which is close to the machine shell, and the indicating piece is positioned at one side of the fixing frame, which is back to the machine shell. Therefore, on the premise of ensuring the stable rotation of the shifting fork rotating shaft, the length of the shifting fork rotating shaft is shortened as much as possible, and the indicating structure is simplified.

Furthermore, the fixed block is located on the outer side of the bottom edge of the U-shaped frame, the shifting fork is detachably connected to the shifting fork rotating shaft, the shifting fork rotating shaft penetrates through the fixed frame from the outer side of the bottom edge of the U-shaped frame, and a stop pin for preventing the shifting fork rotating shaft from axially moving relative to the fixed frame penetrates through the inner side position of the bottom plate of the U-shaped frame. The structure mode is simple and convenient in disassembly and assembly.

Furthermore, the rotating part is a cam, a microswitch matched with the cam profile surface of the cam is further arranged on the shell, the circuit breaker operating mechanism further comprises a control module, the microswitch is connected with the control module, when the cam rotates to the position of the energy storage finished state, the microswitch is triggered, the microswitch feeds back to a signal triggered by the control module, the control module control mechanism is powered off, when the cam rotates to the position of the energy release finished state, the microswitch is triggered again, the microswitch feeds back to a signal triggered by the control module, and the control module control mechanism is powered on. Through the structural design, the synchronous work of mechanical indication and circuit control is realized, and the reliability and the safety of the mechanism are further improved.

Further, the poking pin is arranged on a side wheel surface of the cam, which is opposite to the shell wall of the shell. Therefore, the worker can conveniently check whether the indication structure is qualified or not, and the maintenance is convenient.

In addition, the indicator is an indicator disc, and an indicating arrow is arranged on the disc surface of the indicator disc. Therefore, the state of the operating mechanism can be observed more directly and obviously by the working personnel.

Drawings

Fig. 1 is a schematic diagram of an indicating structure portion shown in a first embodiment of a circuit breaker operating mechanism according to the present invention;

FIG. 2 is a right side view of FIG. 1;

fig. 3 is a perspective view of a first embodiment of a circuit breaker operating mechanism according to the present invention, showing an indicating structure;

in the figure: 1. a housing; 10. a transition transmission rod; 11. a bearing; 2. a cam; 21. a cam screw assembly; 22. pulling a pin; 3. a fixed mount; 30. an indicator panel; 31. a fixed bracket screw assembly; 32. a fixed block; 4. a shifting fork; 40. a shift fork rotating shaft; 41. a stop pin; 5. a micro switch.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the 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 embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The features and properties of the present invention are described in further detail below with reference to examples.

The utility model discloses a circuit breaker operating mechanism's embodiment one:

the circuit breaker operating mechanism of this embodiment includes the casing, install the mechanism host computer in the casing, the mechanism host computer includes final drive shaft, the energy storage motor, energy storage spring and dropout structure etc, the energy storage motor is connected with the final drive shaft transmission, and can carry out the energy storage through compression energy storage spring when driving the final drive shaft and rotate, final drive shaft still has the output of being connected with the moving contact transmission of circuit breaker, can be when the dropout structure breaks away from, the energy of release energy storage spring and then drive the final drive shaft and rotate, realize the divide-shut brake action of circuit breaker moving contact. The structure of the mechanism main machine is the same as the structure of the main power transmission part of the existing spring operating mechanism, and the detailed description is omitted.

It is critical that the circuit breaker operating mechanism of this embodiment is further configured with an indication structure on the housing. As shown in fig. 1-3, the indicating structure includes a transitional driving rod 10, and the transitional driving rod 10 is vertically installed on the wall of the housing 1 and rotatably assembled with the wall through a bearing. One end of the transition transmission rod 10, which is positioned in the machine shell 1, is used for being in transmission connection with a main transmission shaft, and can be driven to synchronously rotate when the main transmission shaft rotates, one end of the transition transmission rod 10, which is positioned outside the machine shell 1, is fixedly connected with a cam 2 through a cam screw assembly 21, and the wheel surface of the cam 2 is perpendicular to the transition transmission rod 10.

The outer side of the shell wall of the shell, which is penetrated with the transition transmission rod 10, is also provided with a fixed mount 3. The fixing frame 3 is a U-shaped frame and comprises two parallel edges and a bottom edge, wherein the end parts of the two parallel edges are bent outwards to form a connecting section, a connecting hole is formed in the connecting section, and the fixing frame 3 is fixedly connected to the wall of the shell of the machine shell through a fixing frame screw assembly 31 penetrating into the connecting hole.

The fixing frame 3 further comprises a fixing block 32 fixedly arranged on the outer side of the bottom edge of the fixing frame, and the fixing block 32 is a substantially rectangular block which is as wide as the bottom edge and has a certain thickness. Through holes are correspondingly formed in the fixed block 32 and the bottom edge of the U-shaped fixing frame, a shifting fork rotating shaft 40 is rotatably arranged in the through holes in a penetrating mode, and two ends of the shifting fork rotating shaft 40 are hung on two sides of the fixing frame in a hanging mode. An indicating plate 30 is installed at one end of the shifting fork rotating shaft 40, which is located on the outer side of the fixing frame, an indicating arrow is coated on the indicating plate 30, and a shifting fork 4 is installed at one end of the shifting fork rotating shaft 40, which is located on the inner side of the fixing frame. The shifting fork 4 is a U-shaped fork, a rotating shaft connecting hole is formed in the bottom of the U-shaped fork, a shifting fork rotating shaft is inserted into the rotating shaft connecting hole and tightly pushed by a jackscrew screwed on the shifting fork through the bottom of the shifting fork perpendicular to the shifting fork, and then the shifting fork and the rotating shaft can be detachably connected.

In order to prevent the shifting fork rotating shaft 40 from moving in the axial direction of the shifting fork rotating shaft 40 relative to the fixed frame 3, in this embodiment, the through hole formed in the fixed block 32 is a stepped hole, the large diameter section of the stepped hole is located at the outer side, and the small diameter section is located at the inner side, accordingly, the shifting fork rotating shaft 40 is a stepped shaft, the large diameter section of the stepped shaft is close to the outer end and is located in the large diameter section of the stepped hole, the small diameter section of the stepped shaft is close to the inner end and penetrates through the small diameter section of the stepped hole, and thus, the stepped hole can block one side of the stepped shaft which is inward through the stepped surface. The stepped shaft is also provided with a radial through hole at the position at the inner side of the bottom edge, a stop pin 41 penetrates through the radial through hole, and the stop pin 41 can stop the bottom edge of the fixed frame at the outward side, so that the shifting fork rotating shaft and the fixed frame are relatively fixed in the axial direction through the relative matching of the stop pin and the stepped surface.

The fixing frame 3 is located beside the cam 2, so that a shifting fork rotating shaft is parallel to and spaced from a rotation axis of the transition transmission rod (namely, a rotation axis of the cam), a shifting pin 22 is further fixed on an outer side wheel surface of the cam 2, the shifting pin 22 extends into an elongated slot of the shifting fork 4, when the transition transmission rod 10 rotates under the driving of the main transmission shaft, the shifting pin 22 on the cam 2 can eccentrically rotate around the rotation axis of the cam 2, and then the shifting fork 4 is shifted to swing, and a swing range of the shifting fork 4 covers the rotation range of the shifting pin 22, so that the shifting fork can be driven to swing all the time in the process of the rotation of the transition transmission rod 10 in a circle. Through the transmission design, when the main transmission shaft rotates to the energy storage completion position, the indication arrow on the indication disc is in one specific orientation, and when the main transmission shaft rotates to the energy release end position, the indication arrow on the indication disc is in another specific orientation, so that an operator can visually know the mechanism host state of the operating mechanism by observing the indication disc.

In addition, a micro switch 5 is fixed on the outer side of the wall of the housing 1, a contact of the micro switch 5 is located at the outer contour of the cam 2, namely the side of the cam contour surface, and when the cam rotates, the contact can be contacted or separated with the contact of the micro switch 5 through the outer contour of the cam, so that the micro switch 5 is triggered.

The circuit breaker operating mechanism of the embodiment further comprises a control module, the microswitch 5 is connected with the control module, the microswitch 5 can be triggered when the cam 2 rotates to the position of the energy storage end state by designing the profile surface of the cam 2, the microswitch 5 feeds back a triggered signal to the control module, and a host of the control module control mechanism is powered off to avoid danger caused by misoperation; when the cam 2 rotates to the position of the energy release completion state, the micro switch 5 is triggered again, the micro switch 5 feeds back a signal which is triggered by the control module, and the control module controls the main machine of the mechanism to be electrified so as to prepare for subsequent energy storage work. Therefore, a second guarantee can be provided from the aspect of electric control, and safety accidents caused by electrified misoperation are avoided.

According to the above description, the circuit breaker operating mechanism of the embodiment is provided with the indicating structure on the outer side of the casing, so that an operator can conveniently and directly know the current state of the operating mechanism, dangerous operation is avoided, and the use safety of equipment is improved.

Of course, the circuit breaker operating mechanism of the present invention is not limited to the above-described embodiments, and other modified embodiments based on the concept of the present invention are also provided below.

For example, in other embodiments, unlike the embodiment described above, the cam forming the rotary member is replaced by a crank arm fixedly connected to the outer end of the transition transmission lever, the pin is fixedly connected to the crank arm, and when the transition transmission lever rotates around its own axis, it rotates eccentrically, and at this time, the microswitch associated with the rotary member may no longer be provided.

For example, in other embodiments, unlike the above-described embodiment, for some types of circuit breaker operating mechanisms, the end of the main transmission shaft is rotatably mounted on the housing and exposed outside the housing, or the end of the main transmission shaft is inclined to extend out of the housing wall, and in this case, the rotating member represented by the cam in the first embodiment can be directly and fixedly mounted on the main transmission shaft without an additional transitional transmission rod.

For example, in other embodiments, unlike the above-described embodiment, the shift fork shaft and the shift fork are of an integral structure, and the shift fork shaft is rotatably mounted on the fixed frame through two paired angular contact ball bearings, so as to achieve relative fixation with the fixed frame in the axial direction.

For another example, in other embodiments, different from the first embodiment described above, the shifting fork rotating shaft is directly and rotatably mounted on the machine shell, and a fixing frame is not provided, so that the indicating structure can be simplified; or the fixing frame can be of a Z-shaped structure, one of two parallel edges of the Z-shaped fixing frame is fixedly connected to the wall of the machine shell, and the other fixing frame is used for enabling the shifting fork rotating shaft to rotate and be installed.

Still alternatively, in other embodiments, unlike the first embodiment described above, the indicator panel is directly replaced by a pointer, and the state of the circuit breaker operating mechanism is determined by observing the pointing direction of the pointer.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited thereto, the protection scope of the present invention is defined by the claims, and all structural changes equivalent to the contents of the description and drawings of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A circuit breaker actuator comprising:

a housing (1);

the mechanism main machine is arranged in the shell (1), is provided with a main transmission shaft and is used for storing energy and releasing energy to a moving contact of the circuit breaker so as to drive the moving contact to act;

it is characterized in that the utility model is characterized in that,

an indicating structure is arranged on the shell (1);

the indicating structure includes:

the rotating part is in transmission connection with the main transmission shaft, is positioned outside the machine shell (1) and is rotationally configured relative to the machine shell (1);

a shifting pin (22) which is arranged on the rotating piece and is eccentrically arranged with the rotating shaft thereof;

the shifting fork (4) is rotatably assembled relative to the shell (1), and the rotating axis of the shifting fork and the rotating axis of the rotating part are arranged in parallel at intervals;

the indicating piece is fixedly connected to the shifting fork (4) and is positioned at the position of a rotating axis of the shifting fork (4);

the poking pin (22) extends into the shifting fork (4), and drives the indicating piece to rotate to different circumferential positions by poking the shifting fork (4) when the poking pin (22) rotates along with the cam (2), and the indicating piece can indicate that the mechanism host is in an energy storage ending state and an energy release completing state at different positions.

2. The circuit breaker operating mechanism according to claim 1, wherein the indicating structure comprises a transition transmission rod (10), the transition transmission rod (10) is rotatably mounted on the housing (1) and penetrates through a wall of the housing (1), one end of the transition transmission rod (10) located inside the housing (1) is in transmission connection with the main transmission shaft, and one end of the transition transmission rod (10) located outside the housing (1) is fixedly connected with the rotating member.

3. The circuit breaker operating mechanism according to claim 1, wherein the indicating structure comprises a fixed frame (3), a shifting fork rotating shaft (40) is connected to the shifting fork (4), the shifting fork rotating shaft (40) is rotatably mounted on the fixed frame (3), and the indicating member is fixedly mounted on the shifting fork rotating shaft (40).

4. The circuit breaker operating mechanism according to claim 3, wherein the fixing frame (3) is a U-shaped frame including a bottom side and two parallel sides, the ends of the two parallel sides of the U-shaped frame are bent to form a connecting section, the U-shaped frame is fixedly connected to the wall of the housing (1) through a fixing frame screw assembly (31) penetrating the connecting section, and the shifting fork rotating shaft (40) is rotatably installed on the bottom side of the U-shaped frame.

5. The circuit breaker operating mechanism according to claim 4, wherein the fixing frame (3) further comprises a fixing block (32) fixed on the bottom edge, and the shifting fork rotating shaft (40) is rotatably installed on the fixing block (32).

6. The circuit breaker actuator according to claim 5, characterized in that the fork shaft (40) has two overhanging ends on opposite sides of the mounting (3), the fork (4) is on the side of the mounting (3) facing the housing (1), and the indicator is on the side of the mounting (3) facing away from the housing (1).

7. The circuit breaker operating mechanism according to claim 6, wherein the fixed block (32) is located outside the bottom edge of the U-shaped frame, the shifting fork (4) is detachably connected to the shifting fork rotating shaft (40), the shifting fork rotating shaft (40) penetrates through the fixed frame (3) from the outside of the bottom edge of the U-shaped frame, and a stop pin (41) for preventing the shifting fork rotating shaft (40) from axially moving relative to the fixed frame (3) is arranged at the inner side position of the bottom plate of the U-shaped frame in a penetrating manner.

8. The circuit breaker operating mechanism according to any one of claims 1-7, wherein the rotating member is a cam (2), the casing (1) is further provided with a microswitch (5) matched with the profile surface of the cam (2), the circuit breaker operating mechanism further comprises a control module, the microswitch (5) is connected with the control module, when the cam (2) rotates to the position of the energy storage end state, the microswitch (5) is triggered, the microswitch (5) feeds back a signal that the control module is triggered, the control module control mechanism main machine is powered off, when the cam (2) rotates to the position of the energy release completion state, the microswitch (5) is triggered again, the microswitch (5) feeds back a signal that the control module is triggered, and the control module control mechanism main machine is powered on.

9. The circuit breaker actuator according to claim 8, characterized in that the pin (22) is arranged on a side of the cam (2) facing away from the wall of the housing (1).

10. The circuit breaker actuator according to any one of claims 1-7, wherein the indicator is an indicator disk (30) having an indicator arrow on its disk surface.

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