CN202067690U

CN202067690U - Operating mechanism for high voltage switch cabinet

Info

Publication number: CN202067690U
Application number: CN2011201050550U
Authority: CN
Inventors: 黄成兴
Original assignee: WENZHOU SHENGCHUAN ELECTROMECHANICAL MANUFACTURING CO LTD
Current assignee: WENZHOU SHENGCHUAN ELECTROMECHANICAL MANUFACTURING CO LTD
Priority date: 2011-04-12
Filing date: 2011-04-12
Publication date: 2011-12-07
Anticipated expiration: 2021-04-12

Abstract

Provided is an operation mechanism for a high voltage switch cabinet. The operation mechanism comprises a housing and an operation end, wherein a driving mechanism connected with the operation end is arranged inside the housing. Further comprised is a control end for controlling front door locking and the switching on and off of a breaker, wherein the control end, via a linkage mechanism, controls the on and off of the operation end. Only one operation end is included. The driving mechanism comprises a transmission shaft rotatably arranged inside the housing and a drive wheel arranged upon the transmission shaft. The driving mechanism further comprises an auxiliary switch transmission mechanism connected with the drive wheel for driving the auxiliary switch, a back door locking transmission mechanism connected with the drive wheel for driving the back door locking, and a grooved pulley mechanism connected with the transmission shaft for driving an isolation switch and a grounding switch. The operation end drives the transmission shaft to rotate via a transmission device. With the above technical scheme, the utility model provides an operation mechanism characterized by small size, simple operation, safe usage, and capability for meeting the five-prevention interlock requirement.

Description

A kind of high-tension switch cabinet operating mechanism

Technical field

The utility model relates to a kind of high-tension switch cabinet, particularly a kind of high-tension switch cabinet operating mechanism.

Background technology

The action need of the isolating switch of high-tension switch cabinet, circuit breaker, earthed switch, cabinet door satisfies " five is anti-" interlock requirement, that is: prevent the on-load branch, close isolating switch; Prevent the mistake branch, close circuit breaker; Prevent to be with ground wire to close isolating switch; Prevent charged hanging earthing conductor; Prevent mistakenly entering charged chamber.

At present, the mechanical interlock mechanism of all kinds of high-tension switch cabinets is varied, the operation board of four transverse arrangement of turbo of employing that have, operation board connects by connecting rod, following isolating switch, on, following earthed switch, handle hole is directly arranged on the operation board, and handle hole is not provided with radical occlusion device, and itself and circuit breaker are interlocked very complicated, this operating mechanism causes the switch cubicle lateral dimension big, floor space is more and high especially to the operation requirement, needs to lean on skilled operating personnel's thinking realize in proper order and comes the console switch cabinet, because of handle hole does not have the device of covering, the easy wrong dislocation operation of operating personnel, promptly damaged operating mechanism, and the switch of its connection is opened in the mistake damage, causes contingency.

The operating mechanism that has adopts four operating axis of passive type positive lock to realize upper and lower isolating switch in the switch cubicle, upper and lower earthed switch, circuit breaker, have four handle holes before the switch cubicle, operating grip can insert but can't rotate, and damages operating mechanism during this passive type interlocking device operation easily; Also there is handle hole to stop and adopts the multi-disc type of attachment, it is many to connect fulcrum, parts are many, with switch cubicle installation difficulty height, successively operating sequence must be observed strict regulation, and these mechanical interlock mechanisms are all very complicated, poor reliability, this complicated machinery interlock complex operation, and possible misoperation, thus immeasurable loss caused.

Summary of the invention

The purpose of this utility model: in order to overcome the defective of prior art, the utility model provides a kind of and has had only an operating side, volume little, simple to operate and safe in utilization, can satisfy the high-tension switch cabinet operating mechanism of " five is anti-" interlock requirement.

The technical solution of the utility model: a kind of high-tension switch cabinet operating mechanism, include housing, the operating side, be provided with the driving mechanism that is connected with the operating side in the described housing, also include and be used to control the Qianmen locking and circuit breaker closes, the control end that divides, described control end is controlled opening of described operating side through link gear, close state, described operating side has only one, described driving mechanism includes the power transmission shaft that is rotatably provided in the housing, be arranged on the drive on the power transmission shaft, driving mechanism also includes the auxiliary switch drive mechanism that is used to drive auxiliary switch that is connected with drive respectively, be used to drive the back door locking drive mechanism of back door locking, what be connected with power transmission shaft is used to drive isolating switch, the Geneva mechanism of earthed switch, described operating side drives the power transmission shaft rotation through transmission device.

Adopt technique scheme, when operation, only need control the rotation of transmission device drive power transmission shaft by the operating side realizes isolating switch through Geneva mechanism, the driving of earthed switch station, the power transmission shaft rotation drives the drive rotation, the rotation of drive is through the auxiliary switch drive mechanism, locking drive mechanism in back door is realized respectively auxiliary switch, the driving of back door locking, do not need a plurality of control ends, a plurality of driving mechanisms, can realize the back door locking, auxiliary switch, the driving of isolating switch and earthed switch station, use easily, and then make volume little, what control end can also the control operation end opens, close state, use safer.

Further improvement of the utility model: Geneva mechanism includes the swivelling chute arm in fixed axis is arranged on housing, be arranged on the sheave on the power transmission shaft, be installed with trundle on the described sheave, described groove arm is provided with the driving groove that is complementary with described trundle, and described sheave rotation drives the driving of groove arm rotation realization to isolating switch, earthed switch station through trundle.

Adopt above-mentioned further improvement, drive the rotation of groove arm through the trundle on the sheave, the Geneva mechanism of this structure only needs simple the connection to cooperate and can realize, makes processing simple, and transmission performance is reliable.

Further improvement more of the present utility model: described auxiliary switch drive mechanism includes first connecting rod, second connecting rod, described drive is provided with crank slot, described first connecting rod one end places in the crank slot, the other end is connected with second connecting rod, and the rotation of described drive drives the second connecting rod motion and then realizes driving to the auxiliary switch station through first connecting rod.

Adopt and above-mentionedly further improve again, the shape of described crank slot is that the running orbit that first connecting rod is positioned at crank slot one end need be provided with according to the auxiliary switch position, and the auxiliary switch drive mechanism of this structure is reliable.

Further improvement of the present utility model: described back door locking drive mechanism includes impeller, described drive is provided with breach, described impeller is provided with the projection that is complementary with described breach, also include the spring of the impeller that is used to reset, the rotation of described drive realizes driving to the back door locking through impeller.

Adopt above-mentioned further improvement, when described drive rotates, cooperatively interact by the breach on the drive, the projection on the impeller, thereby drive the impeller motion, and then realize driving to the back door locking, it is simple, stable that the back door of this structure drives drive mechanism processing.

Further improvement more of the present utility model: described transmission device includes first bevel gear, second bevel gear, first spur gear, second spur gear, described operating side includes guidance panel, described guidance panel is provided with operation port, described guidance panel is in fixed axis is arranged on housing, described fixed axis is provided with perpendicular to the power transmission shaft direction, described first bevel gear is arranged on the fixed axis, described second bevel gear is in connecting axle is arranged on housing, first bevel gear and the engagement of second bevel gear, described connecting axle is parallel to the power transmission shaft setting, described first spur gear also is arranged on the connecting axle and described second bevel gear is installed in first spur gear, described second spur gear is arranged on the power transmission shaft, described first spur gear and the engagement of second spur gear.

Adopt above-mentioned further improvement again, by first bevel gear, second bevel gear, first spur gear, second spur gear, realize the driving of operating side to power transmission shaft, simple in structure, described second bevel gear is installed in first spur gear, save the space, further dwindled the volume of housing.

Further improvement more of the present utility model: described control end includes rotating vane, described rotating vane is provided with control port, described rotating vane lateral wall is provided with sawtooth, control end also includes the tooth bar that the sawtooth with rotating vane is complementary, described link gear includes rotatable first driver plate that is arranged in the housing, second driver plate, be arranged on first tongue piece of the slip in the housing, second tongue piece, described first driver plate and the coaxial setting of rotating vane, described first tongue piece, one end and first driver plate, one end, second driver plate, one end is hinged, the first tongue piece other end is provided with the baffle plate that is complementary with operation port, the other end of second driver plate and second tongue piece are hinged, be provided with between described first bevel gear and the guidance panel and be connected the collar, described second tongue piece is provided with a circular arc recess, described adapter sleeve ring-side wall is provided with planar end surface, described first tongue piece, be equipped with back-moving spring on second driver plate.

Adopt above-mentioned further improvement again, described tooth bar is used for being connected with the release of circuit breaker, when rotating vane rotates, drives the trip status that the tooth bar motion realizes circuit breaker, can prevent from like this to operate a switch under the on-load state; Described first driver plate rotation drives the first tongue piece slippage and realizes the open and close of operation port is controlled, and the link gear of this structure is simple in structure and can prevent the unnecessary danger that misoperation causes.

Further improvement more of the present utility model: the end that described fixed axis is positioned at guidance panel one side is provided with the handle ejector pin, the described fixed axis other end is provided with the compression spring, described compression spring is positioned at connecting axle, also be provided with the direction of motion and the identical push rod of compression telescopic spring direction on the described connecting axle, described first bevel gear is provided with the groove that inserts for described push rod.

Adopt above-mentioned further improvement again, when not inserting operating grip, described push rod is positioned at the groove of described first bevel gear, and at this moment, described guidance panel can not rotate, and has further improved the security performance of high-tension switch cabinet.

Description of drawings

Fig. 1 adopts manually operated structural representation for the utility model specific embodiment;

Fig. 2 adopts the structural representation of motor operation for the utility model specific embodiment;

Fig. 3 is transmission device in the utility model specific embodiment, organ syndeton schematic diagram;

Fig. 4 is auxiliary switch drive mechanism in the utility model specific embodiment, back door locking drive mechanism syndeton schematic diagram;

Fig. 5 is the structural representation of link gear under the utility model specific embodiment mode of operation;

Fig. 6 is the structural representation of link gear under the utility model specific embodiment operating state;

Fig. 7 is the structural representation of link gear under the utility model specific embodiment service mode;

Fig. 8 is the syndeton schematic diagram of control panel in the utility model specific embodiment, first bevel gear, the connection collar;

Fig. 9 is the front view of first bevel gear in the utility model specific embodiment.

Embodiment

As Fig. 1,2,3, shown in 4, a kind of high-tension switch cabinet operating mechanism, include housing 1, operating side 3, be provided with the driving mechanism 5 that is connected with operating side 3 in the described housing 1, also include and be used to control the Qianmen locking and circuit breaker closes, the control end 2 that divides, described control end 2 is opened through the link gear 4 described operating sides 3 of control, close state, described operating side 3 has only one, described driving mechanism 5 includes the power transmission shaft 51 that is rotatably provided in the housing 1, be arranged on the drive 53 on the power transmission shaft 51, driving mechanism 5 also includes the auxiliary switch drive mechanism 54 that is used to drive auxiliary switch 17 that is connected with drive 53 respectively, be used to drive the back door locking drive mechanism 55 of back door locking, what be connected with power transmission shaft 51 is used to drive isolating switch, the Geneva mechanism 56 of earthed switch, described operating side 3 drives power transmission shaft 51 rotations through transmission device 6.

In the utility model, Geneva mechanism 56 includes the swivelling chute arm 562 in fixed axis 561 is arranged on housing 1, be arranged on the sheave 52 on the power transmission shaft 51, be installed with trundle 563 on the described sheave 52, trundle 563 is parallel to fixed axis 561 direction settings, described groove arm 562 is provided with the driving groove 5621 that is complementary with described trundle 563, driving groove 5621 is " U " shape, and described sheave 52 rotations drive the driving of groove arm 562 rotation realizations to isolating switch, earthed switch station through trundle 563.Be equipped with pull bar connecting hole 5621 on the described groove arm 562, pull bar connecting hole 5621 is connected the branch realized isolating switch, each station of earthed switch, closes driving by external pull bar with isolating switch, earthed switch.

In the utility model specific embodiment, described isolating switch includes, following isolating switch, earthed switch includes, following earthed switch, described groove arm 562 has four, described sheave 52 is two, fixed axis 561 is two, two groove arms 562 are set respectively on each fixed axis 561, when described power transmission shaft 51 rotates, press isolating switch by sheave 52, earthed switch closes, divide order to drive described four groove arms, 562 motions one by one, realization is to last isolating switch, following isolating switch, last earthed switch, the control of following earthed switch can not occur, following isolating switch and last, following earthed switch is with dividing, with closing phenomenon.

As shown in Figure 3, described auxiliary switch drive mechanism 54 includes first connecting rod 541, second connecting rod 542, described drive 53 is provided with crank slot 531, described first connecting rod 541 1 ends place in the crank slot 531, and the other end is connected with second connecting rod 542, and the rotation of described drive 53 drives second connecting rods 542 motions and then realizes driving to the auxiliary switch station through first connecting rod 541, in the utility model, being provided with of described crank slot 531 shapes need be corresponding with the structure of auxiliary switch 17 stations.

Described back door locking drive mechanism 55 includes impeller 551, described drive 53 is provided with breach 532, described impeller 551 is provided with the projection 5511 that is complementary with described breach 532, also include the spring 552 of the impeller 551 that is used to reset, when projection 5511 is complementary for drive 53 rotations with breach 532, breach 532 can drive impeller 551 motions, the driving that the rotation of described drive 53 realizes the back door locking through impeller 551 through this projection 5511.In the utility model, described impeller 551 can slippage in housing 1, when drive 53 rotations, cooperates between the projection 5511 by breach 532 and impeller 551, makes impeller 551 slippages and then the realization driving to the back door locking unit.

As shown in Figure 2, described transmission device 6 includes first bevel gear 61, second bevel gear 62, first spur gear 63, second spur gear 64, described operating side 3 includes guidance panel 31, described guidance panel 31 is provided with operation port 32, described guidance panel 31 is in fixed axis 7 is arranged on housing 1, described fixed axis 7 is perpendicular to power transmission shaft 51 direction settings, described first bevel gear 61 is arranged on the fixed axis 7, described second bevel gear 62 is in connecting axle 8 is arranged on housing 1,

first bevel gear

61 and 62 engagements of second bevel gear, described connecting axle 8 is parallel to power transmission shaft 51 and is provided with, described first spur gear 63 also is arranged on the connecting axle 8 and described second bevel gear 62 is installed in first spur gear 63, described second spur gear 64 is arranged on the power transmission shaft 51, described

first spur gear

63 and 64 engagements of second spur gear.The rotation of described guidance panel promptly can drive by motor 18 again by manual actuation.

As shown in Figure 1, operating personnel know upper and lower isolating switch for convenience, upper and lower earthed switch operating position, in the utility model, on housing 1, also be provided with the switching manipulation direction board, isolating switch identification label 91 in the indication, following isolating switch identification label 92, upper and lower earthed switch identification label 93, when control panel 31 being rotated to an action, label can clearly be told the operation of operating personnel to isolating switch, earthed switch.

As Fig. 4,5,6,7, shown in 8, described control end 2 includes rotating vane 21, described rotating vane 21 is provided with control port 22, described rotating vane 21 lateral walls are provided with sawtooth 211, control end 2 also includes the tooth bar 10 that the sawtooth 211 with rotating vane 21 is complementary, tooth bar 10 is provided with connecting hole 101 and is connected with the switching-off device of circuit breaker, when operating position, cause circuit breaker to be in gate-dividing state, prevent that on-load from operating a switch, described link gear 4 includes rotatable first driver plate 41 that is arranged in the housing 1, second driver plate 42, be arranged on first tongue piece 43 of the slip in the housing 1, second tongue piece 44, described first driver plate 41 and rotating vane 21 coaxial settings, rotating vane 21, first driver plate 41 is through preceding gate interlock handle 14 its rotations of control, described first tongue piece, 43 1 ends and first driver plate, 41 1 ends, second driver plate, 42 1 ends are hinged, first tongue piece, 43 other ends are provided with the baffle plate 431 that is complementary with operation port 32, described baffle plate 431 and operation port 32 be complementary for baffle plate 431 in high-tension switch cabinet work, under the service mode, can block operation port 32 well, can not be to these operation port 32 operations, the other end of second driver plate 42 and second tongue piece 44 are hinged, be provided with between described first bevel gear 61 and the guidance panel 31 and be connected the collar 33, described second tongue piece 44 is provided with a circular arc recess 441, the described connection collar 33 sidewalls are provided with planar end surface 331, described first tongue piece 43, be equipped with back-moving spring 45 on second driver plate 42, back-moving spring 45 can be when control end not be operated, automatically with first tongue piece 43, second driver plate 42 resets.Described first driver plate 41, second driver plate 42 are articulated and connected with alignment pin 13, and alignment pin 13 is fixedlyed connected with housing 1, form described first driver plate 41, second driver plate 42 is rotatably provided in the housing 1; Described first tongue piece 43, second tongue piece 44 are provided with a chute 15, are provided with backstay 16 in the described chute 15, and described backstay 16 is fixedlyed connected with housing 1 inwall, form described first tongue piece 43, second tongue piece, 44 slips are arranged in the housing 1.

When control port 22 rotated to the high-tension switch cabinet operating state, circuit breaker could close a floodgate, and it is the arc surface position that the circular arc recess 441 of second tongue piece 44 is positioned at the non-flat endface position of sidewall that connects the collar 33, and the cabinet door can't be opened, and prevents mistakenly entering charged chamber; When control port 22 rotated to the high-tension switch cabinet service mode, this circular arc recess 441 was positioned at the below that connects the collar 33, the maintenance of can opening the door, and handle hole 32 is blocked; When control port 22 rotated to the high-tension switch cabinet mode of operation, this circular arc recess 441 was positioned at and connects the collar 33 tops, and the handle hole on the guidance panel 31 is unlocked at this moment, and guidance panel 31 can rotate.

Shown in Fig. 3,9, in order further to improve the fail safe of operating mechanism, the end that described fixed axis 7 is positioned at guidance panel 31 1 sides is provided with handle ejector pin 71, described fixed axis 7 other ends are provided with compression spring 11, described compression spring 11 is positioned at connecting axle 8, also be provided with the direction of motion and the compression spring 11 flexible identical push rods 12 of direction on the described connecting axle 8, described first bevel gear 61 is provided with the groove 611 that inserts for described push rod 12.Described handle ejector pin 71 is identical with the end shape of operating grip, when inserting operating grip, and the lateral movement in housing 1 of described fixed axis 7, compression spring 11 is compressed, at this moment, the also lateral movement in housing 1 of described push rod 12, guidance panel 31 can rotate smoothly; When not inserting handle, described push rod 12 places in the groove 611 of described first bevel gear 61, and described guidance panel 31 can not rotate, and has improved the fail safe that isolating switch, earthed switch close, divide the locking that puts in place.

The utility model high-tension switch cabinet send electric step: must the Xian Guan back door, close the Qianmen again, (as back door or Qianmen do not close, the Qianmen handle hole can't open), divide circuit breaker, (handle hole is unlocked before, and circuit breaker has been forced to separating brake) divides upper and lower earthed switch, closes upper and lower isolating switch, close circuit breaker, send electric end of operation; Otherwise, be outage.

In project organization, solve the problem of being made mistakes in proper order and going beyond by front and back in operating in order, thereby guaranteed operating process match operation rules, reach " five anti-" highly reliable requirements.

Claims

1. high-tension switch cabinet operating mechanism, include housing (1), operating side (3), be provided with the driving mechanism (5) that is connected with operating side (3) in the described housing (1), it is characterized in that: also include and be used to control the Qianmen locking and circuit breaker closes, the control end (2) that divides, described control end (2) is controlled opening of described operating side (3) through link gear (4), close state, described operating side has only one, described driving mechanism (5) includes the power transmission shaft (51) that is rotatably provided in the housing (1), be arranged on the drive (53) on the power transmission shaft (51), driving mechanism (5) also includes the auxiliary switch drive mechanism (54) that is used to drive auxiliary switch that is connected with drive (53) respectively, be used to drive the back door locking drive mechanism (55) of back door locking, what be connected with power transmission shaft (51) is used to drive isolating switch, the Geneva mechanism of earthed switch (56), described operating side (3) drive power transmission shaft (51) rotation through transmission device (6).

2. high-tension switch cabinet operating mechanism according to claim 1, it is characterized in that: Geneva mechanism (56) includes the swivelling chute arm (562) in fixed axis (561) is arranged on housing (1), be arranged on the sheave (52) on the power transmission shaft (51), be installed with trundle (563) on the described sheave (52), described groove arm (562) is provided with the driving groove (5621) that is complementary with described trundle (563), and described sheave (52) rotation drives groove arm (562) rotation through trundle (563) and realizes isolating switch, the driving of earthed switch station.

3. high-tension switch cabinet operating mechanism according to claim 1 and 2, it is characterized in that: described auxiliary switch drive mechanism (54) includes first connecting rod (541), second connecting rod (542), described drive (53) is provided with crank slot (531), described first connecting rod (541) one ends place in the crank slot (531), the other end is connected with second connecting rod (542), and the rotation of described drive (53) drives second connecting rod (542) motion and then realizes driving to the auxiliary switch station through first connecting rod (541).

4. high-tension switch cabinet operating mechanism according to claim 1 and 2, it is characterized in that: described back door locking drive mechanism (55) includes impeller (551), described drive (53) is provided with breach (532), described impeller (551) is provided with the projection (5511) that is complementary with described breach (532), also include the spring (552) of impeller (551) that are used to reset, the rotation of described drive (53) drives impeller (551) motion and realizes driving to the back door locking.

5. high-tension switch cabinet operating mechanism according to claim 3, it is characterized in that: described back door locking drive mechanism (55) includes impeller (551), described drive (53) is provided with breach (532), described impeller (551) is provided with the projection (5511) that is complementary with described breach (532), also include the spring (552) of impeller (551) that are used to reset, the rotation of described drive (53) drives impeller (551) motion and realizes driving to the back door locking.

6. high-tension switch cabinet operating mechanism according to claim 1 and 2, it is characterized in that: described transmission device (6) includes first bevel gear (61), second bevel gear (62), first spur gear (63), second spur gear (64), described operating side (3) includes guidance panel (31), described guidance panel (31) is provided with operation port (32), described guidance panel (31) is in fixed axis (7) is arranged on housing (1), described fixed axis (7) is perpendicular to power transmission shaft (51) direction setting, described first bevel gear (61) is arranged on the fixed axis (7), described second bevel gear (62) is in connecting axle (8) is arranged on housing (1), first bevel gear (61) and second bevel gear (62) engagement, described connecting axle (8) is parallel to power transmission shaft (51) setting, described first spur gear (63) also is arranged on the connecting axle (8) and described second bevel gear (62) is installed in first spur gear (63), described second spur gear (64) is arranged on the power transmission shaft (51), described first spur gear (63) and second spur gear (64) engagement.

7. high-tension switch cabinet operating mechanism according to claim 3, it is characterized in that: described transmission device (6) includes first bevel gear (61), second bevel gear (62), first spur gear (63), second spur gear (64), described operating side (3) includes guidance panel (31), described guidance panel (31) is provided with operation port (32), described guidance panel (31) is in fixed axis (7) is arranged on housing (1), described fixed axis (7) is perpendicular to power transmission shaft (51) direction setting, described first bevel gear (61) is arranged on the fixed axis (7), described second bevel gear (62) is in connecting axle (8) is arranged on housing (1), first bevel gear (61) and second bevel gear (62) engagement, described connecting axle (8) is parallel to power transmission shaft (51) setting, described first spur gear (63) also is arranged on the connecting axle (8) and described second bevel gear (62) is installed in first spur gear (63), described second spur gear (64) is arranged on the power transmission shaft (51), described first spur gear (63) and second spur gear (64) engagement.

8. high-tension switch cabinet operating mechanism according to claim 6, it is characterized in that: described control end (2) includes rotating vane (21), described rotating vane (21) is provided with control port (22), described rotating vane (21) lateral wall is provided with sawtooth (211), control end (2) also includes the tooth bar (10) that the sawtooth (211) with rotating vane (21) is complementary, described link gear (4) includes rotatable first driver plate (41) that is arranged in the housing (1), second driver plate (42), be arranged on first tongue piece (43) of the slip in the housing (1), second tongue piece (44), described first driver plate (41) and the coaxial setting of rotating vane (21), described first tongue piece (43) one ends and first driver plate (41) one ends, second driver plate (42) one ends are hinged, first tongue piece (43) other end is provided with the baffle plate (431) that is complementary with operation port (32), the other end of second driver plate (42) and second tongue piece (44) are hinged, be provided with between described first bevel gear (61) and the guidance panel (31) and be connected the collar (33), described second tongue piece (44) is provided with a circular arc recess (441), the described connection collar (33) sidewall is provided with planar end surface (331), described first tongue piece (43), be equipped with back-moving spring (45) on second driver plate (42).

9. high-tension switch cabinet operating mechanism according to claim 6, it is characterized in that: the end that described fixed axis (7) is positioned at guidance panel (31) one sides is provided with handle ejector pin (71), described fixed axis (7) other end is provided with compression spring (11), described compression spring (11) is positioned at connecting axle (8), also be provided with the direction of motion and the flexible identical push rod (12) of direction of compression spring (11) on the described connecting axle (8), described first bevel gear (61) is provided with the groove (611) that inserts for described push rod (12).

10. according to claim 7 or 8 described high-tension switch cabinet operating mechanisms, it is characterized in that: the end that described fixed axis (7) is positioned at guidance panel (31) one sides is provided with handle ejector pin (71), described fixed axis (7) other end is provided with compression spring (11), described compression spring (11) is positioned at connecting axle (8), also be provided with the direction of motion and the flexible identical push rod (12) of direction of compression spring (11) on the described connecting axle (8), described first bevel gear (61) is provided with the groove (611) that inserts for described push rod (12).