CN201289816Y - Outdoor high-voltage permanent magnet type vacuum circuit breaker - Google Patents
Outdoor high-voltage permanent magnet type vacuum circuit breaker Download PDFInfo
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- CN201289816Y CN201289816Y CNU2008201776344U CN200820177634U CN201289816Y CN 201289816 Y CN201289816 Y CN 201289816Y CN U2008201776344 U CNU2008201776344 U CN U2008201776344U CN 200820177634 U CN200820177634 U CN 200820177634U CN 201289816 Y CN201289816 Y CN 201289816Y
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Abstract
The utility model discloses an outdoor high-voltage permanent-magnetic vacuum circuit breaker. A permanent-magnetic operating mechanism comprises a horizontally arranged driving rod; a waist-shaped hole extending in the vertical direction is formed at the tail end of the driving rod; the tail end of the driving rod is rotationally connected with the driving arm through a positioning hole; a driving main shaft hole is a waist-shaped hole extending in the vertical direction; and the other end of the driving arm is connected with the driving main shaft through a round shaft pin. The utility model efficiently avoids the problem that the driving rod and the driving main shaft can not move or generate fault motions when moving horizontally due to the displacement impact caused by the rotation of the driving arm.
Description
Technical field
The utility model belongs to the power distribution automation equipment technical field, is specifically related to a kind of outdoor high-voltage permanent magnet type vacuum circuit breaker.
Background technology
Whole missions of circuit breaker, be the branch that is embodied in contact after all, close in the action, realize by operating mechanism and divide, close action, so the quality of the service behaviour of operating mechanism and quality, play a part very important the service behaviour and the reliability of circuit breaker.The operating mechanism of switchgear needs more machine components to form, and this is the cost height not only, and reliability is low, is directly proportional because the possibility that failure rate rises is a quantity with part.Operating mechanism at present commonly used has two kinds of spring mechanism and electromagnetic mechanisms.Spring operating mechanism is the spring that utilizes energy storage makes the circuit breaker action for power a operating mechanism.Spring energy-storage is normally finished by deceleration device by motor.Whole operating mechanism is broadly divided into spring energy-storage, keep and close a floodgate and combined floodgate is kept and four parts of separating brake.The advantage of spring operating mechanism is not need powerful DC power supply, and motor power (output) is little, AC/DC, suitable alternating current operation; Its shortcoming is the structure more complicated, number of spare parts many (being about 200), and require the machining accuracy height, and the manufacturing process complexity, the cost height, the reliability of mechanism is difficult for guaranteeing.The advantage of electromagnetic operating mechanism is simple in structure; number of spare parts few (being about 120); reliable operation; low cost of manufacture; but the power that its shortcoming is a closing coil to consume is too big, and the pressure of contact is less, adds the heaviness of mechanism; operate time is longer, and also needs the user to be equipped with expensive batteries etc. usually.
Patent documentation 200420079109.0 discloses a kind of Outdoor Permanent Magnet Mechanism Vacuum Circuit Breaker, comprises pole, base and operating mechanism: a) also comprise support, slide plate and pin; B) described operating mechanism is made up of tripping spring, motion main shaft and machine barrel, and described tripping spring one end is connected with base, and another free end is connected with the motion main shaft, and the machine barrel combination is fixed on the base, and cross-under campaign main shaft; C) described support is connected with insulated tension pole, which is provided with guide rail, slips on described guide rail after pin and slide plate one end are hinged, and the slide plate other end and motion main shaft are hinged.When mechanism need close a floodgate, the electric current of the logical certain orientation of coil, the coil of energising can produce magnetic field, therefore, armature is subjected to the action of a magnetic field that closes of coil current and permanent magnet generation, at this moment, armature is subjected to the magnetic field force that closes to the right, under the effect of this power, the motion main shaft that the armature drive is fixed together is to left movement, move to left with the motion main shaft on one side with the hinged slide plate of motion main shaft, around pin joint rotate on one side, make hinged and place the pin in the guide rail to move up with slide plate, the promotion support moves upward, and drive connected insulated tension pole and move upward, three-phase contact (moving contact) moves upward synchronously, up to moving, till fixed contact closes, realize closing a floodgate, and under the magnetic field force effect of permanent magnet, remain on closing position, and tripping spring is stretched, laid in the potential energy of return.
The shortcoming of this kind structure is that described support is connected with insulated tension pole, when closing a floodgate, the motion main shaft moves to left and is need be by slide plate hinged and place the pin in the guide rail to move up, also will promote support simultaneously moves upward, because be subjected to the restriction of the shape of support, support also will drive the motion main shaft and do certain displacement that makes progress when moving upward, cause the motion main shaft unbalance, be difficult to correctly work or be easy to take place misoperation in actual the use.
The utility model content
The purpose of this utility model provides a kind of rational in infrastructure, volume is less, the source of trouble is less outdoor high-voltage permanent magnet type vacuum circuit breaker.
The technical scheme that realizes the utility model purpose is: a kind of outdoor high-voltage permanent magnet type vacuum circuit breaker comprises base, is arranged on three poles on the base and is arranged on the interior magneto operating mechanism of base; Described each pole is along the fixed contact that is provided with outlet row, be electrically connected with outlet row, vacuum interrupter, moving contact, the insulated tension pole that insulate and be connected with the binding clip of moving contact electrical connection, with moving contact; Its design feature is:
Driven by transmission main shaft and drive the transmission mechanism that the corresponding insulation pull bar vertically moves reciprocatingly and of being fixed on the base drives main support thereby described magneto operating mechanism comprises the transmission main shaft that is provided with the along continuous straight runs setting, actuating arm, drive permanent magnet type drive mechanism that the transmission main shaft along continuous straight runs moves reciprocatingly, three by actuating arm; Described magneto operating mechanism comprises the drive rod that an along continuous straight runs is provided with, the end of described drive rod is provided with a spacing hole, described spacing hole is a mounting hole that vertically stretches, and the end of described drive rod is rotationally connected by this spacing hole and described actuating arm; Described mounting hole is by the rectangular opening in the middle of being positioned at and be positioned at the rectangular opening two side ends and two semicircle orifices being communicated with described rectangular opening are formed, and the direction of extension of described mounting hole is meant the circle center line connecting direction of two semicircle orifices; It laterally is provided with the driving main shaft hole that an other end that is used for actuating arm is rotationally connected described transmission main shaft upper edge, and described driving main shaft hole is a mounting hole that vertically stretches; Describedly laterally be meant the horizontal direction vertical with its axial direction; Described driving main support is provided with a spacing axis hole; The two side ends of described actuating arm and middle part thereof are provided with three axis holes altogether; The axis hole of one end matches with the spacing hole of described drive rod end and is connected with described drive rod by a circular pivot pin, its other end axis hole match with described driving main shaft hole and be connected with described transmission main shaft by a circular pivot pin, the axis hole at its middle part matches with spacing axis hole on driving main support and runs through axis hole in the middle part of the described actuating arm and the spacing axis hole on the described driving main support with a circular pivot pin.
In the technique scheme, the shape of three axis holes on the described actuating arm all is circular; The shape of described driving main support upper limit axis hole is circular.
In the technique scheme, described each transmission mechanism comprises three transmission phase supports that are fixedly installed on the base, three transmission arms; Described transmission main shaft is provided with three transmission phase axis holes; Described each insulated tension pole be provided with an axis hole near bottom place; Described each transmission phase support is provided with as horizontal guide rail hole and vertical guide rail hole; The two ends of described transmission arm are equipped with a transmission axis hole; The transmission axis hole of one end and the axis hole of a corresponding insulated tension pole, a corresponding transmission vertical guide rail hole on the support mutually match, and be rotationally connected, and should the circle pivot pin also can vertically move back and forth in the vertical guide rail hole on the transmission phase support under the drive of transmission arm by a circular pivot pin and described insulated tension pole; A corresponding transmission matches in the horizontal guide rail hole on axis hole, the corresponding transmission phase support mutually on the transmission axis hole of its other end and the transmission main shaft, and be rotationally connected, and should the circle pivot pin also can move back and forth at the horizontal guide rail hole along continuous straight runs on the transmission phase support under the drive of transmission main shaft by a circular pivot pin and described transmission main shaft.
In the technique scheme, the shape of two transmission axis holes at the two ends of described transmission arm all is circular; Described horizontal guide rail hole is the mounting hole that along continuous straight runs stretches, and described vertical guide rail hole is the mounting hole that vertically stretches.
In the technique scheme, the axis hole near bottom place of described each insulated tension pole is circular port or the mounting hole that vertically stretches.
In the technique scheme, described magneto operating mechanism also comprises two tripping springs that are symmetricly set on described transmission main shaft both sides; Also be provided with tripping spring backstay on the described transmission main shaft along its horizontally set; One end of described each tripping spring is arranged on the base, and the other end is arranged on the described tripping spring backstay.
In the technique scheme, described magneto operating mechanism also comprises manual brake separating mechanism; The separating brake connecting lever that described manual brake separating mechanism comprises the separating brake stressed member that is arranged on the transmission main shaft, the separating brake main shaft that can turn an angle, be used to drive handle that the separating brake main shaft rotates, can rotate along with the separating brake main shaft; Described separating brake connecting lever drives described transmission main shaft along continuous straight runs by described separating brake stressed member and moves in along with separating brake main shaft rotating process, thereby realizes separating brake.
In the technique scheme, described separating brake stressed member is one and is arranged on metal cylinder on the transmission main shaft along the transmission main shaft horizontal direction; Described separating brake main shaft also is provided with along the transmission main shaft horizontal direction.
In the technique scheme, described separating brake connecting lever comprises and is yi word pattern and along the driving lever that stretches near vertical direction, described driving lever is stirred described separating brake stressed member and is driven described transmission main shaft and move horizontally towards the separating brake direction in along with separating brake main shaft rotating process, until separating brake.
The utlity model has positive effect: in (1) the utility model, described magneto operating mechanism comprises the drive rod that an along continuous straight runs is provided with, the end of described drive rod is provided with a spacing hole, described spacing hole is a mounting hole that vertically stretches, and the end of described drive rod is rotationally connected by this spacing hole and described actuating arm; It laterally is provided with the driving main shaft hole that an other end that is used for actuating arm is rotationally connected described transmission main shaft upper edge, and described driving main shaft hole is a mounting hole that vertically stretches; The utility model is when divide-shut brake, and the magneto operating mechanism is driving transmission main shaft and then driving the corresponding insulation pull bar realization breaking-closing operating that vertically moves reciprocatingly by transmission mechanism by described actuating arm; Because the spacing hole of described drive rod end is the mounting hole that vertically is provided with, driving main shaft hole on the described transmission main shaft also is a mounting hole that vertically is provided with, thereby make actuating arm when rotating motion, the displacement movement of being used for the pivot pin that links to each other with transmission main shaft with described drive rod for its two ends stays suitable space, thereby the horizontal movement that effectively guarantees drive rod, transmission main shaft can not be activated the Influence of Displacement that rotatablely moves of arm and akinesia or generation misoperation.
(2) in the utility model, described each transmission mechanism comprises three transmission phase supports that are fixedly installed on the base, three transmission arms; Described transmission main shaft is provided with three transmission phase axis holes; Described each insulated tension pole be provided with an axis hole near bottom place; Described each transmission phase support is provided with as horizontal guide rail hole and vertical guide rail hole; The two ends of described transmission arm are equipped with a transmission axis hole; The transmission axis hole of one end and the axis hole of a corresponding insulated tension pole, a corresponding transmission vertical guide rail hole on the support mutually match, and be rotationally connected, and should the circle pivot pin also can vertically move back and forth in the vertical guide rail hole on the transmission phase support under the drive of transmission arm by a circular pivot pin and described insulated tension pole; A corresponding transmission matches in the horizontal guide rail hole on axis hole, the corresponding transmission phase support mutually on the transmission axis hole of its other end and the transmission main shaft, and be rotationally connected, and should the circle pivot pin also can move back and forth at the horizontal guide rail hole along continuous straight runs on the transmission phase support under the drive of transmission main shaft by a circular pivot pin and described transmission main shaft.Owing on described each transmission phase support, be provided with as horizontal guide rail hole and vertical guide rail hole; Can guarantee effectively that moving both vertically of described insulating knockout pin can not receive the Influence of Displacement of the horizontal movement of transmission main shaft, thereby guarantee the stability and the reliability of divide-shut brake action.
(3) in the utility model, described horizontal guide rail hole is the mounting hole that along continuous straight runs stretches, and described vertical guide rail hole is the mounting hole that vertically stretches; The location that the guide rail hole of this shape is beneficial to divide-shut brake keeps, and obtains comparatively stable separating brake, "on" position.
(4) in the utility model, when the axis hole near the place, bottom of described each insulated tension pole is the mounting hole that vertically stretches, be more conducive to effectively guarantee that moving both vertically of insulating knockout pin can not receive the Influence of Displacement of the horizontal movement of transmission main shaft, thereby guarantee the stability and the reliability of divide-shut brake action.
(5) in the utility model, described separating brake connecting lever comprises and is yi word pattern and along the driving lever that stretches near vertical direction, described driving lever is stirred described separating brake stressed member and is driven described transmission main shaft and move horizontally towards the separating brake direction in along with separating brake main shaft rotating process, until separating brake.Because described driving lever is directly stirred the separating brake stressed member that is arranged on described transmission main shaft, make manual brake separating structure price simplify, and guaranteed the validity and stability of manual brake separating.
Description of drawings
Fig. 1 is a kind of structural representation of the present utility model;
Fig. 2 is a kind of structural representation of outdoor high-voltage permanent magnet type vacuum circuit breaker shown in Figure 1 when observing from the side;
Fig. 3 is the local enlarged diagram at A place among Fig. 1;
Fig. 4 is the local enlarged diagram at B place among Fig. 1;
Fig. 5 is the local enlarged diagram in second kind of structure of the utility model.
Be labeled as shown in the accompanying drawing: base 1, pole 2, outlet row 21, vacuum interrupter 23, binding clip 25, insulated tension pole 26, axis hole 261, magneto operating mechanism 3, transmission main shaft 4, driving main shaft hole 41, transmission phase axis hole 42, tripping spring backstay 43, actuating arm 5, axis hole 51, axis hole 511, axis hole 512, axis hole 513, permanent magnet type drive mechanism 6, drive rod 61, spacing hole 611, transmission mechanism 7, transmission phase support 71, horizontal guide rail hole 711, vertical guide rail hole 712, transmission arm 72, transmission axis hole 721, transmission axis hole 7211, transmission axis hole 7212 drives main support 8, spacing axis hole 81, manual brake separating mechanism 9, separating brake stressed member 91, separating brake main shaft 92, separating brake connecting lever 93, driving lever 931, handle 94, tripping spring 10, circular pivot pin 100.
Embodiment
(embodiment 1)
Fig. 1 to Fig. 4 has shown a kind of embodiment of the present utility model, and wherein, Fig. 1 is a kind of structural representation of the present utility model; Fig. 2 is a kind of structural representation of outdoor high-voltage permanent magnet type vacuum circuit breaker shown in Figure 1 when observing from the side; Fig. 3 is the local enlarged diagram at A place among Fig. 1; Fig. 4 is the local enlarged diagram at B place among Fig. 1.
Present embodiment is a kind of outdoor high-voltage permanent magnet type vacuum circuit breaker, sees Fig. 1 and Fig. 2, and a kind of outdoor high-voltage permanent magnet type vacuum circuit breaker comprises base 1, is arranged on three poles 2 on the base 1 and is arranged on magneto operating mechanism 3 in the base 1; Described each pole 2 is along the fixed contacts that are provided with outlet row 21, be electrically connected with outlet row 21, vacuum interrupter 23, moving contact, the insulated tension pole 26 that insulate and be connected with the binding clip 25 of moving contact electrical connection, with moving contact; Driven by transmission main shaft 4 and drive the transmission mechanism 7 that corresponding insulation pull bar 26 vertically moves reciprocatingly and of being fixed on the base 1 drives main support 8 thereby described magneto operating mechanism 3 comprises the transmission main shaft 4 that is provided with the along continuous straight runs setting, actuating arm 5, drive permanent magnet type drive mechanism that transmission main shafts 4 along continuous straight runs move reciprocatingly 6, three by actuating arm 5; Described magneto operating mechanism 3 comprises the drive rod 61 that an along continuous straight runs is provided with, the end of described drive rod 61 is provided with a spacing hole 611, described spacing hole 611 is mounting holes that vertically stretch, and the end of described drive rod 61 is rotationally connected with described actuating arm 5 by this spacing hole 611; Described mounting hole is by the rectangular opening in the middle of being positioned at and be positioned at the rectangular opening two side ends and two semicircle orifices being communicated with described rectangular opening are formed, and the direction of extension of described mounting hole is meant the circle center line connecting direction of two semicircle orifices; It laterally is provided with the driving main shaft hole 41 that an other end that is used for actuating arm 5 is rotationally connected described transmission main shaft 4 upper edges, and described driving main shaft hole 41 is mounting holes that vertically stretch; Describedly laterally be meant the horizontal direction vertical with its axial direction; Described driving main support 8 is provided with a spacing axis hole 81; The two side ends of described actuating arm 5 and middle part thereof are provided with three axis holes 51 altogether; The axis hole 511 of one end matches with the spacing hole 611 of described drive rod 61 ends and is connected with described drive rod 61 by a circular pivot pin 100, its other end axis hole 512 match with described driving main shaft hole 41 and be connected with described transmission main shaft 4 by a circular pivot pin 100, the axis hole 513 at its middle part matches with spacing axis hole 81 on the driving main support 8 and runs through the axis hole 513 at described actuating arm 5 middle parts and the spacing axis hole 81 on the described driving main support 8 with a circular pivot pin 100.
In the present embodiment, the shape of three axis holes 51 on the described actuating arm 5 all is circular; The shape of described driving main support 8 upper limit axis holes 81 is circular.
See Fig. 1 to Fig. 4, described each transmission mechanism 7 comprises three transmission phase supports being fixedly installed on the base 1 71, three transmission arms 72; Described transmission main shaft 4 is provided with three transmission phase axis holes 42; Described each insulated tension pole 26 be provided with an axis hole 261 near bottom place; Described each transmission phase support 71 is provided with as horizontal guide rail hole 711 and vertical guide rail hole 712; The two ends of described transmission arm 72 are equipped with a transmission axis hole 721; The transmission axis hole 7211 of one end and the axis hole 261 of a corresponding insulated tension pole 26, a corresponding transmission vertical guide rail hole 712 on the support 71 mutually match, and be rotationally connected, and should circle pivot pin 100 also can vertically move back and forth in the vertical guide rail hole 712 on the transmission phase support 71 under the drive of transmission arm 72 by a circular pivot pin 100 and described insulated tension pole 26; A corresponding transmission matches in the horizontal guide rail hole 711 on axis hole 42, the corresponding transmission phase support 71 mutually on the transmission axis hole 7212 of its other end and the transmission main shaft 4, and be rotationally connected, and should circle pivot pin 100 also can move back and forth at horizontal guide rail hole 711 along continuous straight runs on the transmission phase support 71 under the drive of transmission main shaft 4 by a circular pivot pin 100 and described transmission main shaft 4.
In the present embodiment, the shape of two transmission axis holes 721 at the two ends of described transmission arm 72 all is circular; Described horizontal guide rail hole 711 is mounting holes that along continuous straight runs stretches, and described vertical guide rail hole 712 is the mounting holes that vertically stretch; The axis hole 261 near the place, bottom of described each insulated tension pole 26 is circular ports.
See Fig. 1 and Fig. 2, described magneto operating mechanism 3 also comprises two tripping springs 10 that are symmetricly set on described transmission main shaft 4 both sides; Also be provided with tripping spring 10 backstays 43 on the described transmission main shaft 4 along its horizontally set; One end of described each tripping spring 10 is arranged on the base 1, and the other end is arranged on described tripping spring 10 backstays 43.
See Fig. 1 and Fig. 2, described magneto operating mechanism 3 also comprises manual brake separating mechanism 9; The separating brake connecting lever 93 that described manual brake separating mechanism 9 comprises the separating brake stressed member 91 that is arranged on the transmission main shaft 4, the separating brake main shaft 92 that can turn an angle, be used to drive handle 94 that separating brake main shaft 92 rotates, can rotate along with separating brake main shaft 92; Described separating brake connecting lever 93 drives described transmission main shaft 4 along continuous straight runs by described separating brake stressed member 91 and moves, thereby realize separating brake in along with separating brake main shaft 92 rotating process.In the present embodiment, described separating brake stressed member 91 is one and is arranged on metal cylinder on the transmission main shaft 4 along transmission main shaft 4 horizontal directions; Described separating brake main shaft 92 is also along transmission main shaft 4 horizontal direction settings; Described separating brake connecting lever 93 comprises and is yi word pattern and along the driving lever 931 that stretches near vertical direction, described driving lever 931 is in along with separating brake main shaft 92 rotating process, stir described separating brake stressed member 91 and drive described transmission main shaft 4 and move horizontally, until separating brake towards the separating brake direction.
See Fig. 1; The course of work of present embodiment is: the drive rod 61 of described permanent magnet type operating mechanism 3 extends left; Promoting described actuating arm 5 rotates counterclockwise; Thereby drive transmission main shaft 4 overcomes the resistance of tripping spring 10 to be moved right along the horizontal guide rail hole 711 on the transmission phase support 7; Described transmission main shaft 4 and then drive transmission arm 72 rotate counterclockwise; Thereby promoting described insulated tension pole 26 moves upward along the vertical guide rail hole 712 on the transmission phase support 7; Described insulated tension pole 26 drives the final and described static contact closure of moving contact; Finish feed motion
When the drive rod 61 of pulling manual brake separating switch or described magneto operating mechanism 3 bounces back to the right, down auxiliary at the reseting elasticity of tripping spring 10 simultaneously, the horizontal guide rail hole 711 of transmission main shaft 4 on the transmission phase support 7 is to left movement, described transmission main shaft 4 and then drive transmission arm 72 clockwise rotate, thereby driving described insulated tension pole 26 moves downward along the vertical guide rail hole 712 on the transmission phase support 7, described insulated tension pole 26 drives moving contact finally to be separated with described fixed contact, finishes the separating brake action; In the process of whole divide-shut brake, described transmission main support and transmission phase support 7 is not subjected to displacement motion owing to be fixedly installed on the base, and this point has in essence difference with patent documentation 200420079109.0 disclosed structures.
(embodiment 2)
Fig. 5 is the local enlarged diagram in second kind of structure of the utility model, has shown second kind of embodiment of the present utility model.
Present embodiment is substantially the same manner as Example 1, difference is: when the axis hole 261 near the place, bottom of described each insulated tension pole 26 is the mounting hole that vertically stretches, be more conducive to effectively guarantee that moving both vertically of insulating knockout pin can not receive the Influence of Displacement of the horizontal movement of transmission main shaft, thereby guarantee the stability and the reliability of divide-shut brake action.
(1) among embodiment 1 and the embodiment 2, described magneto operating mechanism 3 comprises the drive rod 61 that an along continuous straight runs is provided with, the end of described drive rod 61 is provided with a spacing hole 611, described spacing hole 611 is mounting holes that vertically stretch, and the end of described drive rod 61 is rotationally connected with described actuating arm 5 by this spacing hole 611; It laterally is provided with the driving main shaft hole 41 that an other end that is used for actuating arm 5 is rotationally connected described transmission main shaft 4 upper edges, and described driving main shaft hole 41 is mounting holes that vertically stretch; Embodiment 1 and embodiment 2 are when divide-shut brake, and the magneto operating mechanism is driving transmission main shaft and then driving the corresponding insulation pull bar 26 realization breaking-closing operating that vertically moves reciprocatingly by transmission mechanism by described actuating arm; Because the spacing hole of described drive rod 61 ends is the mounting holes that vertically are provided with, driving main shaft hole 41 on the described transmission main shaft 4 also is a mounting hole that vertically is provided with, thereby make actuating arm when rotating motion, the displacement movement of being used for the pivot pin that links to each other with transmission main shaft with described drive rod for its two ends stays suitable space, thereby the horizontal movement that effectively guarantees drive rod, transmission main shaft can not be activated the Influence of Displacement that rotatablely moves of arm and akinesia or generation misoperation.
(2) among embodiment 1 and the embodiment 2, described each transmission mechanism 7 comprises three transmission phase supports being fixedly installed on the base 1 71, three transmission arms 72; Described transmission main shaft 4 is provided with three transmission phase axis holes 42; Described each insulated tension pole 26 be provided with an axis hole 261 near bottom place; Described each transmission phase support 71 is provided with as horizontal guide rail hole 711 and vertical guide rail hole 712; The two ends of described transmission arm 72 are equipped with a transmission axis hole 721; The transmission axis hole 7211 of one end and the axis hole 261 of a corresponding insulated tension pole 26, a corresponding transmission vertical guide rail hole 712 on the support 71 mutually match, and be rotationally connected, and should circle pivot pin 100 also can vertically move back and forth in the vertical guide rail hole 712 on the transmission phase support 71 under the drive of transmission arm 72 by a circular pivot pin 100 and described insulated tension pole 26; A corresponding transmission matches in the horizontal guide rail hole 711 on axis hole 42, the corresponding transmission phase support 71 mutually on the transmission axis hole 7212 of its other end and the transmission main shaft 4, and be rotationally connected, and should circle pivot pin 100 also can move back and forth at horizontal guide rail hole 711 along continuous straight runs on the transmission phase support 71 under the drive of transmission main shaft 4 by a circular pivot pin 100 and described transmission main shaft 4.Owing on described each transmission phase support 71, be provided with as horizontal guide rail hole 711 and vertical guide rail hole 712; Can guarantee effectively that moving both vertically of described insulating knockout pin can not receive the Influence of Displacement of the horizontal movement of transmission main shaft, thereby guarantee the stability and the reliability of divide-shut brake action.
(3) among embodiment 1 and the embodiment 2, described horizontal guide rail hole 711 is mounting holes that along continuous straight runs stretches, and described vertical guide rail hole 712 is the mounting holes that vertically stretch; The location that the guide rail hole of this shape is beneficial to divide-shut brake keeps, and obtains comparatively stable separating brake, "on" position.
(4) among embodiment 1 and the embodiment 2, described separating brake connecting lever 93 comprises and is yi word pattern and along the driving lever 931 that stretches near vertical direction, described driving lever 931 is in along with separating brake main shaft 92 rotating process, stir described separating brake stressed member 91 and drive described transmission main shaft 4 and move horizontally, until separating brake towards the separating brake direction.Because described driving lever is directly stirred the separating brake stressed member that is arranged on described transmission main shaft, make manual brake separating structure price simplify, and guaranteed the validity and stability of manual brake separating.
Obviously, the foregoing description of the present utility model only is for the utility model example clearly is described, and is not to be qualification to execution mode of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all execution modes.And these belong to conspicuous variation or the change that spirit of the present utility model extended out and still are among the protection range of the present utility model.
Claims (9)
1, a kind of outdoor high-voltage permanent magnet type vacuum circuit breaker comprises base (1), is arranged on three poles (2) on the base (1) and is arranged on the interior magneto operating mechanism (3) of base (1); Described each pole (2) is along the fixed contact that is provided with outlet row (21), be electrically connected with outlet row (21), vacuum interrupter (23), moving contact, the insulated tension pole (26) that insulate and be connected with the binding clip (25) of moving contact electrical connection, with moving contact; It is characterized in that:
Described magneto operating mechanism (3) comprise the transmission main shaft (4) that is provided with along continuous straight runs and is provided with, actuating arm (5), by actuating arm (5) drive permanent magnet type drive mechanism (6) that transmission main shaft (4) along continuous straight runs moves reciprocatingly, three by transmission main shaft (4) thus drive and drive the transmission mechanism (7) that corresponding insulation pull bar (26) vertically moves reciprocatingly and be fixed on a driving main support (8) on the base (1);
Described magneto operating mechanism (3) comprises the drive rod (61) that an along continuous straight runs is provided with, the end of described drive rod (61) is provided with a spacing hole (611), described spacing hole (611) is a mounting hole that vertically stretches, and the end of described drive rod (61) is rotationally connected by this spacing hole (611) and described actuating arm (5); Described mounting hole is by the rectangular opening in the middle of being positioned at and be positioned at the rectangular opening two side ends and two semicircle orifices being communicated with described rectangular opening are formed, and the direction of extension of described mounting hole is meant the circle center line connecting direction of two semicircle orifices;
It laterally is provided with the driving main shaft hole (41) that an other end that is used for actuating arm (5) is rotationally connected described transmission main shaft (4) upper edge, and described driving main shaft hole (41) is a mounting hole that vertically stretches; Describedly laterally be meant the horizontal direction vertical with its axial direction;
Described driving main support (8) is provided with a spacing axis hole (81);
The two side ends of described actuating arm (5) and middle part thereof are provided with three axis holes (51) altogether; The axis hole of one end (511) matches with the spacing hole (611) of described drive rod (61) end, and be connected with described drive rod (61) by a circular pivot pin (100), its other end axis hole (512) match with described driving main shaft hole (41), and be connected with described transmission main shaft (4) by a circular pivot pin (100), the axis hole (513) at its middle part matches with spacing axis hole (81) in driving main support (8), and run through the axis hole (513) at described actuating arm (5) middle part and the spacing axis hole (81) on the described driving main support (8) with a circular pivot pin (100).
2, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 1 is characterized in that: the shape of three axis holes (51) on the described actuating arm (5) all is circular; The shape of described driving main support (8) upper limit axis hole (81) is circular.
3, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 1 is characterized in that: described each transmission mechanism (7) comprises three transmission phase supports (71), three transmission arms (72) that are fixedly installed on the base (1); Described transmission main shaft (4) is provided with three transmission phase axis holes (42); Described each insulated tension pole (26) be provided with an axis hole (261) near bottom place;
Described each transmission phase support (71) is provided with as horizontal guide rail hole (711) and vertical guide rail hole (712);
The two ends of described transmission arm (72) are equipped with a transmission axis hole (721); The transmission axis hole (7211) of one end and the axis hole (261) of a corresponding insulated tension pole (26), a corresponding transmission vertical guide rail hole (712) on the support (71) mutually match, and be rotationally connected, and should circle pivot pin (100) also can vertically move back and forth in the vertical guide rail hole (712) on the transmission phase support (71) under the drive of transmission arm (72) by a circular pivot pin (100) and described insulated tension pole (26); The transmission axis hole (7212) of its other end and transmission main shaft (4) are gone up a corresponding transmission and are matched in the horizontal guide rail hole (711) on axis hole (42), the corresponding transmission phase support (71) mutually, and be rotationally connected, and should circle pivot pin (100) also can move back and forth at horizontal guide rail hole (711) along continuous straight runs on the transmission phase support (71) under the drive of transmission main shaft (4) by a circular pivot pin (100) and described transmission main shaft (4).
4, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 3 is characterized in that: the shape of two transmission axis holes (721) at the two ends of described transmission arm (72) all is circular; Described horizontal guide rail hole (711) is the mounting hole that along continuous straight runs stretches, and described vertical guide rail hole (712) is the mounting hole that vertically stretches.
5, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 3 is characterized in that: the axis hole (261) near bottom place of described each insulated tension pole (26) is circular port or the mounting hole that vertically stretches.
6, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 1 is characterized in that: described magneto operating mechanism (3) also comprises two tripping springs (10) that are symmetricly set on described transmission main shaft (4) both sides; Also be provided with tripping spring (10) backstay (43) on the described transmission main shaft (4) along its horizontally set; One end of described each tripping spring (10) is arranged on the base (1), and the other end is arranged on described tripping spring (10) backstay (43).
7, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 1 is characterized in that: described magneto operating mechanism (3) also comprises manual brake separating mechanism (9); The separating brake connecting lever (93) that described manual brake separating mechanism (9) comprises the separating brake stressed member (91) that is arranged on the transmission main shaft (4), the separating brake main shaft (92) that can turn an angle, be used to drive handle (94) that separating brake main shaft (92) rotates, can rotate along with separating brake main shaft (92); Described separating brake connecting lever (93) drives described transmission main shaft (4) along continuous straight runs by described separating brake stressed member (91) and moves in along with separating brake main shaft (92) rotating process, thereby realizes separating brake.
8, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 7 is characterized in that: described separating brake stressed member (91) is one and is arranged on metal cylinder on the transmission main shaft (4) along transmission main shaft (4) horizontal direction; Described separating brake main shaft (92) is also along transmission main shaft (4) horizontal direction setting.
9, outdoor high-voltage permanent magnet type vacuum circuit breaker according to claim 8, it is characterized in that: described separating brake connecting lever (93) comprises and is yi word pattern and along the driving lever (931) that stretches near vertical direction, described driving lever (931) is in along with separating brake main shaft (92) rotating process, stir described separating brake stressed member (91) and drive described transmission main shaft (4) and move horizontally, until separating brake towards the separating brake direction.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2008201776344U CN201289816Y (en) | 2008-11-21 | 2008-11-21 | Outdoor high-voltage permanent magnet type vacuum circuit breaker |
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Application Number | Priority Date | Filing Date | Title |
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CNU2008201776344U CN201289816Y (en) | 2008-11-21 | 2008-11-21 | Outdoor high-voltage permanent magnet type vacuum circuit breaker |
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CN201289816Y true CN201289816Y (en) | 2009-08-12 |
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CNU2008201776344U Expired - Lifetime CN201289816Y (en) | 2008-11-21 | 2008-11-21 | Outdoor high-voltage permanent magnet type vacuum circuit breaker |
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CN (1) | CN201289816Y (en) |
Cited By (10)
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CN101882538A (en) * | 2010-06-25 | 2010-11-10 | 江苏大全凯帆电器有限公司 | Protection mechanism of permanent-magnet operating mechanism for circuit breaker |
CN101976624A (en) * | 2010-09-19 | 2011-02-16 | 郑文秀 | Circuit breaker for ground burying |
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CN101430986B (en) * | 2008-11-21 | 2011-07-06 | 郑文秀 | Outdoor high-voltage permanent magnet type vacuum circuit breaker |
CN101882538A (en) * | 2010-06-25 | 2010-11-10 | 江苏大全凯帆电器有限公司 | Protection mechanism of permanent-magnet operating mechanism for circuit breaker |
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CN101976624A (en) * | 2010-09-19 | 2011-02-16 | 郑文秀 | Circuit breaker for ground burying |
CN102290285A (en) * | 2011-06-13 | 2011-12-21 | 苏肄鹏 | Outdoor alternating current (AC) high voltage switch |
CN102664120A (en) * | 2012-04-19 | 2012-09-12 | 长沙智通电力设备有限公司 | Miniaturized 40.5KV vacuum circuit breaker |
CN106876213A (en) * | 2017-04-15 | 2017-06-20 | 浙江常有电气有限公司 | Vacuum circuit breaker on outdoor lamppost |
CN106876213B (en) * | 2017-04-15 | 2018-10-26 | 浙江常有电气有限公司 | Vacuum circuit breaker on outdoor lamppost |
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CN111952113A (en) * | 2020-06-23 | 2020-11-17 | 祥兴电气有限公司 | Vacuum circuit breaker on post |
CN111952112A (en) * | 2020-06-23 | 2020-11-17 | 祥兴电气有限公司 | Vacuum circuit breaker on post |
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Granted publication date: 20090812 Effective date of abandoning: 20081121 |