CN106449209A - Operating mechanism - Google Patents

Abstract

The invention discloses an operating mechanism, and the operating mechanism comprises two support plates. The two support plates are connected to an operation shaft in a pivoted mode, and a storage space is formed between the two support plates. A stored energy shaft, a closing trigger module, a closing shalt and closing motion components are installed in the storage space; the closing motion components are connected on the closing shalt; the first motion end of the closing motion components is connected with the operation shaft; after energy storage being completed through the rotation of the energy storage shaft driving energy storage spring, the closing trigger module rotates with the storage shaft to the press fit position of the second motion end of the closing motion components, and triggers the rotation of the second motion end of the closing motion components, meanwhile the first motion end of the closing motion components drives the operating shaft to rotate to achieve closing. According to the invention, the relevant components of the operating mechanism are installed in the storage space, thus the volume of the entire operating mechanism can be reduced, the utilization ratio of the storage space can is improved and the miniaturization of the operating mechanism can be achieved.

Description

A kind of operating mechanism

Technical field

The present invention relates to the technical field of electric equipment, more particularly to one kind are applied to the electricity such as on-load switch, combined electrical apparatus Operating mechanism in device equipment.

Background technology

Generally there is in existing on-load switch, chopper, combined electrical apparatus the operating mechanism of operation dynamic/static contact division, existing Some operating mechanism volumes are big, part is many, cause integral device huge, do not only take up more spaces, can also increase manufacturing cost, Reduce efficiency of assembling, not readily transportable.

Content of the invention

It is an object of the invention to provide the small operation mechanism of a kind of small volume, simple structure.

For solving above-mentioned technical problem, the present invention provides technical scheme below：

A kind of operating mechanism, including two gripper shoes being oppositely arranged, in two gripper shoes through and be articulated with an actuating axle, two An accommodation space is formed between individual gripper shoe, is provided with energy storage axle, combined floodgate trigger member, combined floodgate axle and closes a floodgate dynamic in the accommodation space Make component, energy storage axle and combined floodgate axle are spaced apart, the two ends of energy storage axle are articulated in two gripper shoes respectively, one end of energy storage axle Through a gripper shoe and energy accumulation spring is connected with, combined floodgate trigger member is fixedly connected in energy storage axle, and the two ends of combined floodgate axle connect respectively In two gripper shoes, feed motion component is connected on combined floodgate axle, and feed motion component has the first motion end and second and moves Make end, the first motion end of feed motion component is connected with actuating axle, after the completion of energy storage axle is by rotating drive energy accumulation spring energy storage, Combined floodgate trigger member can turn to the position for compressing cooperation with the second motion end of feed motion component with energy storage axle, and it is dynamic to trigger combined floodgate Make the second motion end of component to be rotated, while driving actuating axle to be rotated with reality by the first motion end of feed motion component Now close a floodgate.

Further, feed motion component includes an actuating bar and at least one actuating arm, and actuating arm is fixed and is set in institute State on combined floodgate axle, actuating arm forms integrally formed first along the radially protruding of combined floodgate axle respectively and turns wall and second and turns wall, first Turn the end of wall and the first end pivot joint of actuating bar, the second end of actuating bar with actuating axle pivot joint and formed described close a floodgate dynamic Make the first motion end of component, the second end for turning wall merges to form the feed motion component with the combined floodgate trigger member matching The second motion end.

Further, feed motion component includes two actuating arms being oppositely arranged, the first end pivot joint of the actuating bar In two actuating arms, two first are turned between wall, and in two actuating arms, two second are turned between wall and are provided with a roller, and roller sets Put in the second end for turning wall, the two ends of roller are articulated in two actuating arms two second respectively and turn on wall, and described combined floodgate is touched Outbox is the cam that can compress cooperation with the roller.

Further, the actuating arm protrudes along the opposite side of combined floodgate Axial and radial respectively and to form described first and turn wall and second Wall is turned, second turns wall extends between the energy storage axle and combined floodgate axle obliquely and make the first end for turning wall extend to the conjunction The lower section of lock trigger member, first turns wall extends obliquely and makes the first end for turning wall extend to the first end phase pivot with actuating bar The position for connecing.

Further, described two gripper shoes have first gripper shoe, and one end of the combined floodgate axle passes through first Fagging is simultaneously fixedly connected with combined floodgate locking piece, and the top of combined floodgate locking piece is provided with a tumbler, and the tumbler is articulated in first The outside of fagging, tumbler has first end and the second end, and the first end of tumbler through the first gripper shoe and extends to first The inner side of gripper shoe, the inner side of the first gripper shoe is provided with return unit, and one end of return unit is fixedly connected on the interior of the first gripper shoe On the wall of side, the other end of return unit is fixedly connected on the first end of tumbler, and tumbler is provided with and the combined floodgate locking piece phase The breach of cooperation, return unit relies on its reset force that tumbler can be driven to turn to primary importance, and the two ends of the combined floodgate axle are respectively It is articulated in two gripper shoes, second motion end of feed motion component is fixedly connected on combined floodgate axle, combined floodgate trigger member is touched When sending out the rotation of the second motion end of feed motion component, combined floodgate axle can drive combined floodgate locking piece to rotate, and combined floodgate locking piece can overcome multiple The reset force of position part is to pass through the breach of tumbler and be resisted against the side of tumbler.

Further, the outside of first gripper shoe is also articulated with separating brake trigger member, and separating brake trigger member can trigger described Tumbler overcomes the reset force of the return unit to turn to the second position, and enables the breach of tumbler to the combined floodgate locking piece Stepped down；The outside of first gripper shoe is articulated with separating brake axle, and separating brake axle is provided with a torsion spring, the separating brake trigger member set It is located on separating brake axle and is connected with torsion spring, the second end of the tumbler is connected with a gangbar, and separating brake trigger member can be with linkage Bar compresses and coordinates and trigger gangbar and rotated.

Further, described two gripper shoes have second gripper shoe, and the energy accumulation spring is arranged on the second gripper shoe Outside, energy accumulation spring one end is fixedly installed, and the energy accumulation spring other end is fixedly connected in the energy storage axle.

Further, drive shaft and gear train are additionally provided with the accommodation space, and drive shaft is separated with the energy storage axle and sets Put, drive shaft is located at the both sides of energy storage axle respectively with the combined floodgate axle, and the two ends of drive shaft are articulated in described two supports respectively On plate, one end of drive shaft through a gripper shoe and is connected with actuator, and drive shaft is connected with energy storage axle by gear train.

Further, be additionally provided with auxiliary switching-in component in the accommodation space, auxiliary switching-in component include turbine, worm screw and Closing by hand axle, turbine is fixed and is set in the drive shaft, and worm screw is arranged along the direction that the gripper shoe extends and and turbine Match, one end of closing by hand axle is connected with worm screw, the direction that the other end of closing by hand axle extends along the gripper shoe is prolonged Extend at the front opening of the accommodation space.

Further, also include at least one sluice separating spring, the first end of sluice separating spring is fixedly installed, the second end of sluice separating spring is solid Surely it is connected on the actuating axle.

In the present invention, energy storage axle, combined floodgate trigger member, combined floodgate axle and feed motion component are arranged at two by operating mechanism In accommodation space between individual gripper shoe, and then the associated component of operating mechanism is assemblied in accommodation space, not only can contract The volume of little whole operation mechanism, it is also possible to improve the utilization rate of accommodation space, operating mechanism simple structure in the present embodiment, zero Part is few, it is not necessary to which complicated actuating mechanism can be achieved with divide-shut brake, such that it is able to realize the miniaturization of operating mechanism.

Description of the drawings

Fig. 1 is a kind of structure chart of operating mechanism；

Fig. 2 is a kind of structure chart of another angle of operating mechanism；

Fig. 3 is a kind of sectional view of operating mechanism；

Fig. 4 is and sectional view in opposite direction in Fig. 3；

Fig. 5 is a kind of another sectional view of operating mechanism.

Specific embodiment

Purpose, technical scheme and advantage for making the embodiment of the present invention is clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is The a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment for being obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

In the description of the technical program, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", "front", "rear", The orientation of instruction such as "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outward " or position relationship be based on accompanying drawing institute The orientation for showing or position relationship, are for only for ease of the description present invention and simplify description, rather than the dress of instruction or hint indication Put or element must be with specific orientation, with specific azimuth configuration and operation, therefore it is not intended that protecting to the present invention The restriction of scope, the invention will be further described below in conjunction with the accompanying drawings.

A kind of operating mechanism, as depicted in figs. 1 and 2, including two gripper shoes being oppositely arranged, passes through in two gripper shoes And an actuating axle 42 is articulated with, an accommodation space being formed between two gripper shoes, is provided with energy storage axle 43, closes a floodgate in the accommodation space Trigger member 44, combined floodgate axle 45 and feed motion component, energy storage axle 43 and combined floodgate axle 45 are spaced apart, and the two ends of energy storage axle 43 are divided It is not articulated in two gripper shoes, one end of energy storage axle 43 through a gripper shoe and is connected with energy accumulation spring 46, combined floodgate trigger member 44 It is fixedly connected in energy storage axle 43, the two ends of combined floodgate axle 45 are connected in two gripper shoes, and feed motion component is connected to On combined floodgate axle 45, feed motion component has the first motion end and the second motion end, the first motion end of feed motion component with Actuating axle 42 connects, and after the completion of energy storage axle 43 is by rotating drive 46 energy storage of energy accumulation spring, combined floodgate trigger member 44 can be with energy storage axle 43 Turning to the position for being compressed cooperation with the second motion end of feed motion component, and trigger the second motion end of feed motion component is carried out Rotate, while drive actuating axle 42 to be rotated to realize closing a floodgate by the first motion end of feed motion component, specifically, existing In technology, actuating axle 42 can be connected with the moving contact of vacuum interrupter by actuating component, after rotating actuating axle 42, by behaviour Dynamic component can drive the moving contact of vacuum interrupter to be moved, and be tied the moving contact of vacuum interrupter and static contact Close, so as to realize closing a floodgate, naturally it is also possible to adopt other modes, specifically do not limit, as long as can realize closing a floodgate.

In the present embodiment, energy storage axle, combined floodgate trigger member, combined floodgate axle and feed motion component are arranged at by operating mechanism In accommodation space between two gripper shoes, and then the associated component of operating mechanism is assemblied in accommodation space, not only can Reduce the volume of whole operation mechanism, it is also possible to the utilization rate of accommodation space is improved, operating mechanism simple structure in the present embodiment, Parts are few, it is not necessary to which complicated actuating mechanism can be achieved with divide-shut brake, such that it is able to realize the miniaturization of operating mechanism.

On the basis of above-described embodiment, it is preferred that such as Fig. 3, Fig. 4 are simultaneously combined shown in Fig. 1, Fig. 2, feed motion component bag Include an actuating bar 47 and at least one actuating arm 48, actuating arm 48 is fixed and is set on the combined floodgate axle 45, actuating arm edge respectively The radially protruding of combined floodgate axle 45 forms integrally formed first and turns wall 481 and second and turns wall 482, first turn the end of wall 481 with The first end pivot joint of actuating bar 47, the second end of actuating bar 47 with 42 pivot joint of actuating axle and forms the feed motion component The first motion end, it is preferred that can be connected with actuating axle 42 and turn wall, the second end of actuating bar 47 is articulated in actuating axle 42 Turn on wall, the second end for turning wall 482 is matched with the combined floodgate trigger member 44 and merges to form the second of the feed motion component Motion end.

On the basis of above-described embodiment, it is preferred that as shown in Figure 1 to 4, feed motion component includes to be oppositely arranged Two actuating arms 48, the first end of the actuating bar 47 is articulated in two actuating arms 48 two first and turns between wall 481, two In actuating arm 48, two second are turned and are provided with a roller 49 between wall 482, and roller 49 is arranged on the second end for turning wall 482, roller 49 two ends are articulated in two actuating arms 48 two second respectively and turn on wall 482, and the combined floodgate trigger member 44 is for can be with the rolling Wheel 49 compresses the cam of cooperation.

Combined floodgate trigger member is realized by the cooperation of cam and roller in the present embodiment the triggering of actuating arm is pushed, coordinate Mode is simple, facilitates implementation.

On the basis of above-described embodiment, it is preferred that as shown in Figure 3 and Figure 4, the actuating arm is respectively along 45 footpath of combined floodgate axle To opposite side protrude to form described first and turn wall 481 and second and turn wall 482, second turns wall 482 extends to the storage obliquely Between axle 43 and combined floodgate axle 45 and the first end for turning wall 481 can be made to extend to the lower section of the combined floodgate trigger member 44, first turns Wall 481 is extended obliquely and makes the first end for turning wall 481 extend to the position being articulated with the first end of actuating bar 47.

In the present embodiment first turn wall and second turn wall respectively along combined floodgate Axial and radial opposite side protrude, such first turns wall Turn, with second, the both sides that wall is oppositely disposed in combined floodgate axle, on the one hand ensure the balance of mechanism, on the other hand, between 2 points Straight line is most short, and first turns wall and second turns wall and need not be bent or be bent, such that it is able to the volume of reduction operation mechanism, Be conducive to the miniaturization of operating mechanism.

On the basis of above-described embodiment, it is preferred that as shown in Fig. 1～Fig. 5, described two gripper shoes have one first Gripper shoe 411, one end of the combined floodgate axle 45 through the first gripper shoe 411 and is fixedly connected with combined floodgate locking piece 52, and close a floodgate lock The top for determining part 52 is provided with a tumbler 53, and the tumbler 53 is articulated in the outside of the first gripper shoe 411, and tumbler 53 has the One end and the second end, the first end of tumbler 53 passes through the first gripper shoe 411 and extends to the inner side of the first gripper shoe 411, the The inner side of one gripper shoe 411 is provided with return unit 54, and return unit 54 can be back-moving spring, and one end of return unit 54 is fixedly connected on On the medial wall of the first gripper shoe 411, the other end of return unit 54 is fixedly connected on the first end of tumbler 53, in conjunction with Fig. 5 institute Show, tumbler 53 is provided with the breach 531 for matching with the combined floodgate locking piece 52, return unit 54 relies on its reset force drive Tumbler 53 turns to primary importance, and the two ends of the combined floodgate axle 45 are articulated in two gripper shoes respectively, the feed motion The second motion end of component is fixedly connected on combined floodgate axle 45, and combined floodgate trigger member 44 triggers the second motion end of feed motion component and rotates When, combined floodgate axle 45 can drive combined floodgate locking piece 52 to rotate, and combined floodgate locking piece 52 can overcome the reset force of return unit 54 to turn to pass through The breach 531 of moving part 53 is simultaneously resisted against the side of tumbler 53.

On the basis of above-described embodiment, it is preferred that as shown in Fig. 1～Fig. 5, the outside of first gripper shoe 411 is also Separating brake trigger member 55 is articulated with, separating brake trigger member 55 can trigger the tumbler 53 and overcome the reset force of the return unit 54 to rotate To the second position, and the breach 531 of tumbler 53 is enable to step down the combined floodgate locking piece 52；First gripper shoe 411 outside is articulated with separating brake axle 56, and separating brake axle 56 is provided with a torsion spring 57, and the separating brake trigger member 55 is set in separating brake axle 56 It is connected above and with torsion spring 57, the second end of the tumbler 53 is connected with a gangbar 58,55 energy of separating brake trigger member and gangbar 58 compress and coordinate and trigger gangbar 58 and rotated, and specifically, the side of separating brake trigger member 55 is provided with separating brake projection 551, point Lock projection 551 can compress cooperation with gangbar 58.

On the basis of above-described embodiment, it is preferred that as shown in Figure 1 to 4, described two gripper shoes have one second Gripper shoe 412, the energy accumulation spring 46 is arranged on the outside of the second gripper shoe 412, and 46 one end of energy accumulation spring is fixedly installed, energy accumulation spring 46 The other end is fixedly connected in the energy storage axle 43.

On the basis of above-described embodiment, it is preferred that as shown in Fig. 3, Fig. 4 and Fig. 5, drive in the accommodation space, is additionally provided with Moving axis 63 and gear assembly, drive shaft 63 is spaced apart with the energy storage axle 43, and drive shaft 63 and the combined floodgate axle 45 distinguish position In the both sides of energy storage axle 43, the two ends of drive shaft 63 are articulated in described two gripper shoes respectively, and one end of drive shaft 63 passes through One gripper shoe is simultaneously connected with actuator 64, and actuator 64 can be motor, and drive shaft 63 is by gear train and energy storage axle 43 connections, specifically, the gear train includes driving gear 65 and driven gear 66, and driving gear 65 is fixed and is set in the drive On moving axis 63, driven gear 66 is fixed and is set in the energy storage axle 43, and driving gear 65 and driven gear 66 are meshed transmission.

In the present embodiment, moving axis is with the combined floodgate axle respectively positioned at the both sides of energy storage axle.The miniaturization of mechanism is not only realized, As weight distribution is uniform, and then can ensure that the balance of mechanism.

On the basis of above-described embodiment, it is preferred that as shown in Fig. 2～Fig. 5, auxiliary is additionally provided with the accommodation space and is closed Gate assembly, auxiliary switching-in component includes turbine 59, worm screw 61 and closing by hand axle 62, and turbine 59 is fixed and is set in the drive shaft On 63, the direction that worm screw 61 extends along the gripper shoe is arranged and is matched with turbine 59, one end of closing by hand axle 62 and snail Bar 61 connects, and the direction that the other end of closing by hand axle 62 extends along the gripper shoe extends to the front end of the accommodation space and opens At mouthful.

The present embodiment arranges auxiliary switching-in component, and which is matched with automatic brake separating component, it is possible to achieve the effect of dual fail-safe, Manual brake separating in the case of can realizing carrying out, it is ensured that job safety.

On the basis of above-described embodiment, it is preferred that as shown in Figure 2 and Figure 5, also include at least one sluice separating spring 65, point The first end of brake spring 65 is fixedly installed, and the second end of sluice separating spring 65 is fixedly connected on the actuating axle 42.

Finally it should be noted that：Various embodiments above only in order to technical scheme to be described, rather than a limitation；To the greatest extent Pipe has been described in detail to the present invention with reference to foregoing embodiments, it will be understood by those within the art that：Its according to So the technical scheme described in foregoing embodiments can be modified, or which part or all technical characteristic are entered Row equivalent；And these modifications or replacement, do not make the essence of appropriate technical solution depart from various embodiments of the present invention technology The scope of scheme.

Claims (10)

1. a kind of operating mechanism, it is characterised in that including two gripper shoes being oppositely arranged, in two gripper shoes through and pivot joint There is an actuating axle, between two gripper shoes, an accommodation space is formed, in the accommodation space, be provided with energy storage axle, combined floodgate trigger member, conjunction Lock axle and feed motion component, energy storage axle and combined floodgate axle are spaced apart, and the two ends of energy storage axle are articulated in two gripper shoes respectively On, one end of energy storage axle through a gripper shoe and is connected with energy accumulation spring, and combined floodgate trigger member is fixedly connected in energy storage axle, combined floodgate axle Two ends be connected in two gripper shoes, feed motion component is connected on combined floodgate axle, feed motion component have first Motion end and the second motion end, the first motion end of feed motion component is connected with actuating axle, and energy storage axle drives storage by rotating After the completion of energy spring energy storage, combined floodgate trigger member can turn to the position for compressing cooperation with the second motion end of feed motion component with energy storage axle Put, and trigger the second motion end of feed motion component and rotated, while behaviour is driven by the first motion end of feed motion component Moving axis is rotated to realize closing a floodgate.

2. a kind of operating mechanism according to claim 1, it is characterised in that feed motion component includes an actuating bar and extremely A few actuating arm, actuating arm is fixed and is set on the combined floodgate axle, and actuating arm forms one along the radially protruding of combined floodgate axle respectively Body formed first is turned wall and second and turns wall, and first turns the end of wall and the first end pivot joint of actuating bar, the second end of actuating bar With actuating axle pivot joint and form the first motion end of the feed motion component, second turns the end of wall and described combined floodgate is touched Outbox matches and merges the second motion end for forming the feed motion component.

3. a kind of operating mechanism according to claim 2, it is characterised in that feed motion component includes two for being oppositely arranged Individual actuating arm, the first end of the actuating bar is articulated in two actuating arms two first and turns between wall, two in two actuating arms Individual second turns between wall and is provided with a roller, and roller is arranged on the second end for turning wall, and the two ends of roller are articulated in two behaviour respectively In swing arm, two second are turned on wall, and the combined floodgate trigger member is the cam that can compress cooperation with the roller.

4. a kind of operating mechanism according to claim 2, it is characterised in that the actuating arm is respectively along combined floodgate Axial and radial Opposite side protrudes to form described first and turn wall and second and turns wall, second turn wall extend to obliquely the energy storage axle and combined floodgate axle it Between and make the first end for turning wall extend to the lower section of the combined floodgate trigger member, first turns wall extends obliquely and makes first to turn wall End extend to the position being articulated with the first end of actuating bar.

5. a kind of operating mechanism according to claim 1, it is characterised in that described two gripper shoes have first Fagging, one end of the combined floodgate axle through the first gripper shoe and is fixedly connected with combined floodgate locking piece, and the top of combined floodgate locking piece sets There is a tumbler, the tumbler is articulated in the outside of the first gripper shoe, tumbler has first end and the second end, the of tumbler One end passes through the first gripper shoe and extends to the inner side of the first gripper shoe, and the inner side of the first gripper shoe is provided with return unit, return unit One end be fixedly connected on the medial wall of the first gripper shoe, the other end of return unit is fixedly connected on the first end of tumbler, Tumbler is provided with the breach for matching with the combined floodgate locking piece, and return unit relies on its reset force that tumbler can be driven to turn to Primary importance, the two ends of the combined floodgate axle are articulated in two gripper shoes respectively, and second motion end of feed motion component is solid Surely it is connected on combined floodgate axle, when combined floodgate trigger member the second motion end of triggering feed motion component is rotated, combined floodgate axle can drive combined floodgate Locking piece is rotated, and combined floodgate locking piece can overcome the reset force of return unit to pass through the breach of tumbler and be resisted against the one of tumbler Side.

6. a kind of operating mechanism according to claim 5, it is characterised in that the outside of first gripper shoe is also articulated with Separating brake trigger member, separating brake trigger member can trigger the tumbler and overcome the reset force of the return unit to turn to the second position, and The breach of tumbler is enable to step down the combined floodgate locking piece；The outside of first gripper shoe is articulated with separating brake axle, point Lock axle is provided with a torsion spring, and the separating brake trigger member is set on separating brake axle and is connected with torsion spring, the second end of the tumbler A gangbar is connected with, separating brake trigger member can be compressed with gangbar and coordinate and trigger gangbar and rotated.

7. a kind of operating mechanism according to claim 5, it is characterised in that described two gripper shoes have second Fagging, the energy accumulation spring is arranged on the outside of the second gripper shoe, and energy accumulation spring one end is fixedly installed, and the energy accumulation spring other end is fixedly connected In the energy storage axle.

8. a kind of operating mechanism according to claim 1, it is characterised in that be additionally provided with the accommodation space drive shaft and Gear train, drive shaft is spaced apart with the energy storage axle, and drive shaft is located at the both sides of energy storage axle respectively with the combined floodgate axle, drives The two ends of axle are articulated in described two gripper shoes respectively, and one end of drive shaft through a gripper shoe and is connected with actuator, Drive shaft is connected with energy storage axle by gear train.

9. a kind of operating mechanism according to claim 8, it is characterised in that be additionally provided with auxiliary switching-in in the accommodation space Component, auxiliary switching-in component includes turbine, worm screw and closing by hand axle, and turbine is fixed and is set in the drive shaft, worm screw edge The direction that the gripper shoe extends is arranged and is matched with turbine, and one end of closing by hand axle is connected with worm screw, closing by hand axle The direction that extends along the gripper shoe of the other end extend at the front opening of the accommodation space.

10. a kind of operating mechanism according to claim 1, it is characterised in that also include at least one sluice separating spring, sluice separating spring First end be fixedly installed, the second end of sluice separating spring is fixedly connected on the actuating axle.