CN205943985U - Separating brake control structure and have its circuit breaker - Google Patents

Abstract

The utility model provides a separating brake control structure and have its circuit breaker, wherein the separating brake control structure includes breaker handle, the connecting rod, the moving contact support frame, the supporter, jump and detain, the hasp, divide disconnected elastic component, elastic component and separating brake control reset, under normal conditions, people can jump through the drive of operation breaker handle and pull the work, make and set up the first integrated structure of buckling in the jump and the second integrated structure combination of setting on the hasp, and then combine with the static contact through supporter and moving contact support frame drive moving contact, the utility model discloses a separating brake control can promote lock catch rotate and how rotate to no matter jumping the knot, does not enable the position that first integrated structure and second integrated structure combine to make no matter how it works breaker handle of people, all unablely make the breaker closing, thereby play control breaker open operation's purpose.

Description

A kind of separating brake control structure and the breaker with it

Technical field

The utility model is related to breaker technical field and in particular to a kind of separating brake control structure and the open circuit with it Device.

Background technology

With social progress, power consumption in productive life for the people is increasing, for conveniently electricity consumption, Have the circuit breaker of automatic divide-shut brake function in intelligent grid using more and more extensive, this kind of breaker includes runback Position overvoltage/undervoltage protection period, pre-payment reclosing breaker etc..

Some occasions need to meet after separating brake can not artificial closing by hand demand, and controlled motor controlled After system instruction can automatic closing, but, such auto recloser often occurs that separating brake descendant is closing by hand Situation, thus lead to the non-paid electricity consumption of some users.

Utility model content

Therefore, the technical problems to be solved in the utility model is to overcome auto recloser separating brake of the prior art After can artificial closing by hand, lead to the technological deficiency of the non-paid electricity consumption of some users, thus can not be artificial after providing a kind of separating brake Closing by hand, thus the separating brake control structure of non-paid electricity consumption can be prevented.

The utility model also provides a kind of breaker with above-mentioned separating brake control structure.

For this reason, the utility model provides a kind of separating brake control structure, including：

Moving contact bracing frame, is provided with moving contact, is installed in rotation on housing；

Supporter, is installed in rotation on described housing, positioned at described moving contact bracing frame top, and rotary shaft and institute State the rotating shaft coaxle of moving contact bracing frame, described supporter is connected by torsion spring with described moving contact bracing frame；

Tripping, is installed in rotation on described supporter by tripping rotary shaft, has the first integrated structure；

Lock, is installed in rotation on described supporter by latching rotary shaft, has the second integrated structure, and institute The rotary shaft stating tripping rotary shaft, described lock rotary shaft and described supporter is mutually misaligned；

Return springs, one end is connected with described lock, and the other end is contacted with described housing, for keeping described lock In the position being combined with described tripping；

Disjunction elastic component, one end is connected with described moving contact bracing frame, and the other end is connected with described housing；

During combined floodgate, described tripping is driven to first direction and rotates, until described first integrated structure and described second knot Close structure to combine, drive described supporter to rotate together with described lock in conjunction with rear described tripping, described supporter passes through described Torsion spring drives described moving contact bracing frame to rotate, and then drives described moving contact to contact with static contact, now described disjunction elasticity Part energy storage, described return springs are followed described lock 6 and are moved and extremely separated with described housing 1；

During separating brake, described tripping is driven to second direction opposite to the first direction and rotates, until described first Integrated structure is separated with described second integrated structure, separates the rear described tripping and described lock active force for described supporter Disappear, described supporter is also disappeared by the active force that described torsion spring gives described moving contact bracing frame, now described disjunction bullet Property the part described moving contact bracing frame of promotion that releases energy rotate, so that described moving contact and described static contact is separated, described reset bullet Property part is followed described lock and is turned to and contacted with described housing, and described lock is maintained at the position being combined with described tripping Put；

Also include separating brake control piece, described separating brake control piece can promote described lock to turn to regardless of described tripping Rotate, all can not make the position that described first integrated structure is combined with described second integrated structure.

As a kind of preferred version, described separating brake control piece includes：

Push rod, has the advanced position not to described snap action, and promotes described lock to turn to no matter described tripping How to rotate, all can not make the release location that described first integrated structure is combined with described second integrated structure；

Driving structure, for driving described putter action.

As a kind of preferred version, described driving structure includes：

Support, fixed installation on the housing, has installing space；

Skeleton, is fixedly mounted on inside described installing space, has hollow cavity；

Static iron core, is fixedly mounted on one end of described hollow cavity, has the inner chamber for passing through for described push rod；

Dynamic iron core, is arranged on the other end of described hollow cavity, has the Part I within positioned at described hollow cavity, With positioned at described installing space outside Part II；Described Part I is fixedly connected with one end of described push rod, and described Two portion of external are arranged with elastic component, and one end of described elastic component is connected with the end of described Part II, the other end with described Support connects；

Coil, around the home outside described skeleton；

When not needing to control described breaker open operation, described coil no power, between described static iron core and described dynamic iron core Distant, the suction-combining force is less than the elastic force of described elastic component, and described push rod is in advanced position；

When needing to control described breaker open operation, the positive energising of described coil, described dynamic iron core produces magnetic field, described quiet iron The suction-combining force between core and described dynamic iron core is more than the elastic force of described elastic component, promotes described push rod to move out to release position Put, described return springs by compressed energy-storage, described moving contact and described static contact separating brake；After separating brake, described coil stops logical The distance between electricity, described dynamic iron core and described static iron core are relatively near, and suction is protected still greater than the elastic force of described elastic component, described push rod Hold in release location；

When needing to release control gate-dividing state, described coil is reversely energized, and described dynamic iron core produces magnetic field, described static iron core Mutually repel each other out with described dynamic iron core, pull described push rod by the mobile extremely described advanced position in described release location, described reset bullet Property part release energy, promote described lock be reset to the position that can be combined again with described tripping；Described coil stops energising Afterwards, farther out, the suction-combining force is less than the elastic force of described elastic component for the distance between described static iron core and described dynamic iron core, and described push rod is protected Hold in advanced position.

As a kind of preferred version, described elastic component is the spring being set in outside described Part II.

As a kind of preferred version, also include may be rotatably mounted at the circuit breaker handle on described housing, described breaker Handle is connected with described tripping by connecting rod, and drives described tripping to rotate by described connecting rod.

As a kind of preferred version, in the middle part of described circuit breaker handle, it is provided with the drive hole that can allow for drive shaft insertion, institute State drive shaft and pass through the described circuit breaker handle rotation of described drive hole driving.

As a kind of preferred version, described drive shaft is triangular prism, and described drive hole is tri-angle-holed.

The utility model also provides a kind of breaker, is provided with the separating brake control structure as above described in any one.

The separating brake control structure that the utility model provides, has advantages below：

1. separating brake control structure of the present utility model, including the moving contact bracing frame being provided with moving contact, moving contact bracing frame It is installed in rotation on housing, supporter is located above moving contact bracing frame, is likewise rotatably mounted within housing, and The rotary shaft of gripping member is arranged with the rotating shaft coaxle of moving contact bracing frame, and tripping is installed in rotation on by tripping rotary shaft and props up In gripping member, lock is installed in rotation on supporter by latching rotary shaft, and tripping rotary shaft, lock rotary shaft and support The rotary shaft of part is not coaxial, and tripping has the first integrated structure, and lock has the second integrated structure, also include return springs and Disjunction elastic component.During combined floodgate, after tripping is positively driven, the first integrated structure is combined with the second integrated structure, thus promoting dynamic Contact-support frame rotates, and so that moving contact is combined with static contact；During separating brake, after tripping is back-driven into, the first integrated structure and Separately, moving contact bracing frame rotates under the promotion of disjunction elastic component two integrated structures, so that moving contact is separated with static contact.Here On the basis of, be additionally provided with separating brake control piece, this separating brake control piece lock can be promoted to turn to no matter how tripping rotates, all can not Make the position that the first integrated structure is combined with the second integrated structure；Thus when needing to control breaker open operation, start separating brake control Product, at this moment drives tripping anyway, and tripping all cannot be made to drive dynamic/static contact to contact by combining with lock, thus reaching Control breaker open operation and keep the purpose of gate-dividing state.

2. separating brake control structure of the present utility model, including push rod and driving structure, driving structure is used for driving push rod and moves Make so as to can move to not to the advanced position that acted on of lock, and promote lock to turn to can not be combined with tripping The release location of position.

3. separating brake control structure of the present utility model, driving structure includes support, skeleton, static iron core, dynamic iron core and coil, The utility model is by following ingenious setting so that coil, after stopping energising, can be maintained at release location, also can keep In advanced position such that it is able to energy saving.During the positive energising of coil, the magnetic field that dynamic iron core generation is attracted each other with static iron core, The suction between sound iron core is made to be more than the elastic force of elastic component, thus pulling push rod to move to release location by advanced position；Line During circle no power, because the position between sound iron core is close, suction is more than the elastic force of elastic component, so that push rod is in coil Also release location can be maintained at during no power；When coil is reversely energized, sound iron core produces and repels each other, and pulls push rod by release location Move to advanced position, in coil during no power, because the distance between sound iron core is far, suction is less than the bullet of elastic component Power, so that push rod also can be maintained at advanced position in no power.Separating brake control structure of the present utility model, separating brake controls Reliable and stable, opening velocity is fast, and separating brake keeps function more reliable.

4. separating brake control structure of the present utility model, also includes may be rotatably mounted at the circuit breaker handle on housing, open circuit Device handle is connected with tripping by connecting rod, and drives tripping to rotate with connecting rod.By circuit breaker handle, people can freely control The divide-shut brake of breaker.

5. the utility model also provides a kind of breaker, and it is provided with separating brake control structure as above, because installing Above-mentioned separating brake control structure, thus there are all advantages naturally that bring because installing above-mentioned separating brake control structure.

Brief description

In order to be illustrated more clearly that the technical scheme in prior art or the utility model specific embodiment, below to existing Have technology or specific embodiment description used in accompanying drawing be briefly described it should be apparent that, the common skill for this area For art personnel, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation after separating brake control structure is installed on housing in the utility model embodiment 1.

Fig. 2 is after handle in Fig. 1, circuit breaker handle, connecting rod, tripping, lock, supporter and moving contact support member combine Structural representation.

Fig. 3 is the stereogram of supporter.

Fig. 4 is the structural representation of driving structure.

Fig. 5 is the structural representation of breaker in embodiment 2.

Reference：1- housing, 2- moving contact bracing frame, 21- moving contact, 22- static contact, 3- supporter, 4- torsion spring, 5- Tripping, 51- tripping rotary shaft, 52- first integrated structure, 6- latches, and 61- latches rotary shaft, 62- second integrated structure, and 7- divides Disconnected elastic component, 8- separating brake control piece, 80- hollow cavity, 81- push rod, 82- skeleton, 83- static iron core, 84- inner chamber, 85- moves iron Core, 851- Part I, 852- Part II, 86- elastic component, 87- coil, 88- support, 91- circuit breaker handle, 92- connecting rod, 93- drive shaft, 94- drive hole.

Specific embodiment

With reference to Figure of description, the technical solution of the utility model is described it is clear that following embodiments not It is the whole embodiment of the utility model.Based on the embodiment described by the utility model, those of ordinary skill in the art are not having There is the every other embodiment being obtained under the premise of making other creative works, broadly fall into protection domain of the present utility model.

It should be noted that in description of the present utility model, term " first ", " second " are only used for describing purpose, and It is not intended that instruction or hint relative importance.Additionally, it is involved in the utility model different embodiments disclosed below As long as and technical characteristic each other do not constitute conflict just can be combined with each other.

Embodiment 1

The present embodiment provides a kind of separating brake control structure, as Figure 1-3, including：Moving contact bracing frame 2, is provided with dynamic touching 21, it is installed in rotation on housing 1；Supporter 3, is installed in rotation on described housing 1, props up positioned at described moving contact Support 2 top, and the rotating shaft coaxle of rotary shaft and described moving contact bracing frame 2, described supporter 3 and described moving contact support Frame 2 is connected by torsion spring 4；Tripping 5, is installed in rotation on described supporter 3 by tripping rotary shaft 51, has the first knot Close structure 52；Lock 6, is installed in rotation on described supporter 3 by latching rotary shaft 61, has the second integrated structure 62, and the rotary shaft of described tripping rotary shaft 51, described lock rotary shaft 61 and described supporter 3 is mutually misaligned；Reset bullet Property part, one end 6 is connected with described lock, and the other end is contacted with described housing 1, for latching described 6 be maintained at can be with institute State the position of tripping 5 combination；Disjunction elastic component 7, one end is connected with described moving contact bracing frame 2, and the other end is with described housing 1 even Connect.

During combined floodgate, described tripping 5 is driven to first direction and rotates, until described first integrated structure 52 and described second Integrated structure 62 combines, and drives described supporter 3 to rotate in conjunction with rear described tripping 5, described supporter 3 together with described lock 6 Drive described moving contact bracing frame 2 to rotate by described torsion spring 4, and then drive described moving contact 21 to contact with static contact 22, this Shi Suoshu disjunction elastic component 7 energy storage, described return springs are followed described lock 6 and are moved and extremely separated with described housing 1.

During separating brake, described tripping 5 is driven to second direction opposite to the first direction and rotates, until described first Integrated structure 52 is separated with described second integrated structure 62, and separately rear described tripping 5 and described lock 6 are for described supporter 3 Active force disappear, described supporter 3 also disappeared, now by the active force that described torsion spring 4 gives described moving contact bracing frame 2 Described disjunction elastic component 7 releases energy and promotes described moving contact bracing frame 2 to rotate, and makes described moving contact 21 and described static contact 22 Separately, described return springs are followed described lock 6 and are turned to and contacted with described housing 1, and described lock 6 is maintained at can be with The position that described tripping 5 combines.

Also include separating brake control piece 8, described separating brake control piece 8 can promote described lock 6 to turn to no matter described tripping 5 How to rotate, all can not make the position that described first integrated structure 52 is combined with described second integrated structure 62.

The separating brake control structure of this enforcement, when needing to control breaker open operation, starts separating brake control piece 8, promotes lock 6 Turn to no matter how tripping rotates, all can not make the position that the first integrated structure 52 is combined with the second integrated structure 62, thus Reach the purpose controlling breaker open operation.

Described separating brake control piece 8 includes：Push rod 81, has advanced position, and no matter described promote described lock 6 to turn to How tripping 5 rotates, and all can not make the release location that described first integrated structure 52 is combined with described second integrated structure 62；Drive Dynamic structure, for driving the action of described push rod 81.

As shown in figure 4, described driving structure includes：Support 88, is fixedly mounted on described housing 1, has installing space； Skeleton 82, is fixedly mounted on inside described installing space, has hollow cavity 80；Static iron core 83, is fixedly mounted on described hollow One end of inner chamber 80, has the inner chamber 84 for passing through for described push rod 81；Dynamic iron core 85, is arranged on described hollow cavity 80 The other end, has the Part I 851 within positioned at described hollow cavity 80, and is located at second outside described installing space Divide 852；Described Part I 851 is fixedly connected with one end of described push rod 81, is arranged with elasticity outside described Part II 852 Part 86, one end of described elastic component 86 is connected with the end of described Part II 852, and the other end is connected with described support 88；Line Circle 87, around the home outside described skeleton 82.

When not needing to control described breaker open operation, described coil 87 no power, described static iron core 83 and described dynamic iron core The distance between 85 farther out, and the suction-combining force is less than the elastic force of described elastic component 86, and described push rod 81 is in advanced position.

When needing to control described breaker open operation, described coil 87 is positive to be energized, and described dynamic iron core 85 produces magnetic field, described The suction-combining force between static iron core 83 and described dynamic iron core 85 is more than the elastic force of described elastic component 86, and promotion described push rod 81 is to outward transport Move to release location, described return springs by compressed energy-storage, described moving contact 21 and described static contact 22 separating brake；After separating brake, Described coil 87 stops energising, and the distance between described dynamic iron core 85 and described static iron core 83 are relatively near, and the suction-combining force is still greater than described The elastic force of elastic component 86, described push rod 81 is maintained at release location.

When needing to release control gate-dividing state, described coil 87 is reversely energized, and described dynamic iron core 85 produces magnetic field, described quiet Iron core 83 is mutually repelled each other out with described dynamic iron core 85, pulls described push rod 81 by the mobile extremely described advanced position in described release location, Described return springs release energy, and promote described lock 6 to be reset to the position that can be combined again with described tripping 5；Described After coil 87 stops energising, farther out, the suction-combining force is less than described elasticity for the distance between described static iron core 83 and described dynamic iron core 85 The elastic force of part 86, described push rod 81 is maintained at advanced position.

The present embodiment by above ingenious setting so that coil 87 stop energising after, release location can be maintained at, Also advanced position can be maintained at such that it is able to energy saving.The separating brake control structure of the present embodiment, separating brake control is reliable and stable, Opening velocity is fast, and separating brake keeps function more reliable.

In the present embodiment, described elastic component 86 is the spring being set in described Part II 852 outside.

As shown in Figure 1-2, also include may be rotatably mounted at the circuit breaker handle 91 on described housing 1, described breaker hand Handle 91 is connected with described tripping 5 by connecting rod 92, and drives described tripping 5 to rotate by described connecting rod 92.

It is provided with the drive hole 94 that can allow for drive shaft 93 insertion, described drive shaft 93 is led in the middle part of described circuit breaker handle 91 Crossing described drive hole 94 drives described circuit breaker handle 91 to rotate.Described drive shaft 93 is triangular prism, and described drive hole 94 is three Angular hole.

Embodiment 2

The present embodiment provides a kind of breaker, as shown in figure 5, being provided with as the separating brake control structure in embodiment 1.Wherein A01 is shutting-brake control structure, and A02 is separating brake control structure, and A03 is breaker, for example, can be 1P or 3P breaker.

The breaker of this enforcement, due to being mounted with above-mentioned separating brake control structure, thus has naturally because installing above-mentioned point Lock control structure and all advantages of bringing.

Obviously, above-described embodiment is only intended to clearly illustrate example, and the not restriction to embodiment.Right For those of ordinary skill in the art, can also make on the basis of the above description other multi-forms change or Change.There is no need to be exhaustive to all of embodiment.And the obvious change thus extended out or Change among the protection domain created still in the utility model.

Claims (8)

1. a kind of separating brake control structure it is characterised in that：Including：

Moving contact bracing frame (2), is provided with moving contact (21), is installed in rotation on housing (1)；

Supporter (3), is installed in rotation on described housing (1), positioned at described moving contact bracing frame (2) top, and rotates Axle and the rotating shaft coaxle of described moving contact bracing frame (2), described supporter (3) and described moving contact bracing frame (2) pass through to turn round Spring (4) connects；

Tripping (5), is installed in rotation on described supporter (3) by tripping rotary shaft (51), has the first integrated structure (52)；

Lock (6), is installed in rotation on described supporter (3) by latching rotary shaft (61), has the second integrated structure , and described tripping rotary shaft (51), described lock rotary shaft (61) and the rotary shaft of described supporter (3) mutually do not weigh (62) Close；

Return springs, one end is connected with described lock (6), and the other end is contacted with described housing (1), for by described lock (6) it is maintained at the position that can combine with described tripping (5)；

Disjunction elastic component (7), one end is connected with described moving contact bracing frame (2), and the other end is connected with described housing (1)；

During combined floodgate, described tripping (5) is driven to first direction and rotates, until described first integrated structure (52) and described second Integrated structure (62) combines, and drives described supporter (3) to rotate in conjunction with rear described tripping (5) together with described lock (6), described Supporter (3) passes through described torsion spring (4) and drives described moving contact bracing frame (2) to rotate, so drive described moving contact (21) with Static contact (22) contacts, now described disjunction elastic component (7) energy storage, and it is mobile extremely that described return springs follow described lock (6) Separate with described housing (1)；

During separating brake, described tripping (5) is driven to second direction opposite to the first direction and rotates, until described first knot Close structure (52) to separate with described second integrated structure (62), separately rear described tripping (5) and described lock (6) are for described The active force of gripping member (3) disappears, and described supporter (3) gives the effect of described moving contact bracing frame (2) by described torsion spring (4) Power also disappears, and now described disjunction elastic component (7) releases energy and promotes described moving contact bracing frame (2) to rotate, and makes described dynamic tactile Head (21) is separated with described static contact (22), and described return springs are followed described lock (6) and turned to and connect with described housing (1) Touch, described lock (6) is maintained at the position that can combine with described tripping (5)；

Also include separating brake control piece (8), described separating brake control piece (8) can promote described lock (6) to turn to no matter described jump How button (5) rotates, and all can not make the position that described first integrated structure (52) and described second integrated structure (62) combine.

2. separating brake control structure according to claim 1 it is characterised in that：Described separating brake control piece (8) includes：

Push rod (81), has the advanced position described lock (6) not acted on, and promotes described lock (6) to turn to no matter institute State how tripping (5) rotates, all can not make described first integrated structure (52) and pushing away that described second integrated structure (62) combines Out position；

Driving structure, for driving described push rod (81) action.

3. separating brake control structure according to claim 2 it is characterised in that：Described driving structure includes：

Support (88), is fixedly mounted on described housing (1), has installing space；

Skeleton (82), is fixedly mounted on inside described installing space, has hollow cavity (80)；

Static iron core (83), is fixedly mounted on one end of described hollow cavity (80), has for passing through for described push rod (81) Inner chamber (84)；

Dynamic iron core (85), is arranged on the other end of described hollow cavity (80), has positioned at described hollow cavity (80) inside Part I (851), and it is located at the Part II (852) outside described installing space；Described Part I (851) is pushed away with described One end of bar (81) is fixedly connected, and is arranged with elastic component (86) outside described Part II (852), and the one of described elastic component (86) End is connected with the end of described Part II (852), and the other end is connected with described support (88)；

Coil (87), outside in described skeleton (82) around the home；

When not needing to control described breaker open operation, described coil (87) no power, described static iron core (83) and described dynamic iron core (85) the distance between farther out, the suction-combining force is less than the elastic force of described elastic component (86), and described push rod (81) is in advanced position；

When needing to control described breaker open operation, the positive energising of described coil (87), described dynamic iron core (85) produces magnetic field, described The suction-combining force between static iron core (83) and described dynamic iron core (85) is more than the elastic force of described elastic component (86), promotes described push rod (81) move out to release location, described return springs by compressed energy-storage, described moving contact (21) and described static contact (22) separating brake；After separating brake, described coil (87) stops energising, the distance between described dynamic iron core (85) and described static iron core (83) Relatively near, the suction-combining force is maintained at release location still greater than the elastic force of described elastic component (86), described push rod (81)；

When needing to release control gate-dividing state, described coil (87) is reversely energized, and described dynamic iron core (85) produces magnetic field, described quiet Iron core (83) is mutually repelled each other out with described dynamic iron core (85), pulls described push rod (81) by the mobile extremely described retraction in described release location Position, described return springs release energy, and promote described lock (6) to be reset to and can combine with described tripping (5) again Position；After described coil (87) stops energising, between described static iron core (83) and described dynamic iron core (85) distant, suction Make a concerted effort to be less than the elastic force of described elastic component (86), described push rod (81) is maintained at advanced position.

4. separating brake control structure according to claim 3 it is characterised in that：Described elastic component (86) is to be set in described the Spring outside two parts (852).

5. the separating brake control structure according to any one of claim 1-4 it is characterised in that：Also include may be rotatably mounted at Circuit breaker handle (91) on described housing (1), described circuit breaker handle (91) passes through connecting rod (92) with described tripping (5) even Connect, and drive described tripping (5) to rotate by described connecting rod (92).

6. separating brake control structure according to claim 5 it is characterised in that：It is provided with energy in the middle part of described circuit breaker handle (91) Enough allow the drive hole (94) that drive shaft (93) is inserted, described drive shaft (93) drives described open circuit by described drive hole (94) Device handle (91) rotates.

7. separating brake control structure according to claim 6 it is characterised in that：Described drive shaft (93) is triangular prism, described Drive hole (94) is tri-angle-holed.

8. a kind of breaker it is characterised in that：Install just like the separating brake control structure any one of claim 1-7.