CN201387860Y

CN201387860Y - Direct current (DC) circuit breaker promoting arc blowout in virtue of magnets

Info

Publication number: CN201387860Y
Application number: CN 200920070387
Authority: CN
Inventors: 雒海珊; 丁飞
Original assignee: Shanghai Liangxin Electrical Co Ltd
Current assignee: Shanghai Liangxin Electrical Co Ltd
Priority date: 2009-04-14
Filing date: 2009-04-14
Publication date: 2010-01-20
Anticipated expiration: 2019-04-14

Abstract

A DC circuit breaker promoting arc blowout in virtue of magnets consists of an electromagnetic circuit breaker and two permanent magnets, wherein the electromagnetic circuit breaker comprises insulating shells and a movable contact; the two permanent magnets are respectively arranged on the insulating shells at two sides of the movable contact travel; and the arrangement directions of the magnetic poles of the two permanent magnets are the same. An arc extinguish chamber of the electromagnetic circuit breaker is not provided with an arc extinguish plate any more. And when the movable contact and a static contact are opened to generate arc, a magnetic field between the two permanent magnets is used for causing arc current to be transferred and far away from the contacts, deflected arc and an elongated arc path increase the voltage drop of the arc but reduce the energy of the arc, thus deceasing damage to the movable contact and the static contact and prolonging the service life of the breaker.

Description

Impel the dc circuit breaker of blow-out with magnet

Technical field:

The utility model relates to electricity field, relates in particular to circuit breaker, particularly a kind of dc circuit breaker that impels blow-out with magnet.

Background technology:

In the prior art, electromagnetic breaker is widely used in the power supply using systems such as the communications field.The mechanical device of electromagnetic breaker and binding post are installed in the plastic casing of a pair of insulation.Wherein, one solenoid that can lead to load current and voltage is arranged in the hydraulic electromagnetic breaker, solenoid be wrapped in a time-delay pipe around, time-delay has an iron core in the pipe, iron core can be by the terminal pole shoe adhesive campaign of time-delay pipe under by the magnetic flux of support and armature.Support be used for the support coils skeleton and by around around coil and a movable armature.Armature can be opened electrical contact by contacting a snap close.During electromagnetic breaker work, no matter be owing to the situation of overcurrent is arranged or, all can produce an electric arc because manual operation makes the moving contact of the mechanical device of circuit breaker separate with fixed contact.Arc control device in the electromagnetic breaker can cut apart, cool off electric arc and impel it to extinguish, and the gas that produces of discharging.So just avoided too much heat or pressure in housing.The arc quenching plate of U-shaped is installed in the arc control device, the groove that has bevel in the housing, arc quenching plate is installed in the groove, the arrangement of arc quenching plate be along moving contact from the make position that contacts with fixed contact on the another one terminal to the movement locus direction of the open position that leaves from fixed contact; When circuit breaker during in make position, current path flows to fixed contact from the moving contact on the acting arm.But the arc blowout effect of arc quenching plate is limited.

Summary of the invention:

The purpose of this utility model is to provide a kind of and impels the dc circuit breaker of blow-out with magnet, describedly thisly impels the dc circuit breaker of blow-out will solve the limited technical problem of arc blowout effect of the arc quenching plate of electromagnetic breaker in the prior art with magnet.

This dc circuit breaker of blow-out that impels with magnet of the present utility model is made of an electromagnetic breaker and two permanent magnets, described electromagnetic breaker includes insulation shell, first binding post, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper, described first binding post, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper all are arranged in the described insulation shell, solenoid is arranged on the coil rack, coil rack be arranged on the time-delay pipe around, iron core is arranged in the time-delay pipe, stent support coil rack and armature, one end of armature is arranged on the top of iron core, the stroke of the other end of armature is through snap close, snap close is arranged in the stroke of keeper, keeper is arranged between acting arm and the operator, first binding post is connected with solenoid by lead, solenoid is connected with moving contact by lead, moving contact is arranged on the acting arm, be fixedly connected with a fixed contact on second binding post, be provided with the slit in the insulation shell of moving contact stroke both sides, wherein, described two permanent magnets are separately positioned on the insulation shell of moving contact stroke both sides, and it is identical that the magnetic pole of two permanent magnets is provided with direction.

Further, the insulation shell of moving contact stroke both sides is provided with a magnet holder, and described two permanent magnets are separately positioned on the two ends of magnet holder.

Further, the insulation shell of moving contact stroke both sides is provided with the arc quenching plate mounting groove, and the inboard of described magnet holder is provided with flange, and magnet holder is installed on the described arc quenching plate mounting groove by described flange.

Further, any one described permanent magnet constitutes by containing the neodymium alloy piece.

Further, the lateral location of housing is provided with an exhaust outlet.

Concrete, electromagnetic breaker described in the utility model and first binding post wherein, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper, described first binding post, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper and interconnect structure and all adopt known technology of the prior art, relevant above-mentioned known solution, those skilled in the art all understands, and does not repeat them here.

Operation principle of the present utility model is: no longer be provided with arc quenching plate in the arc control device of electromagnetic breaker, described two permanent magnets are arranged on the insulation shell of moving contact stroke both sides.First binding post and second binding post are connected in the protected loop.Moving contact contacts with fixed contact, and electric current can flow through solenoid.Unless when electric current flows through, it is disconnected, forms a loop with loading on otherwise electromagnetic breaker provides continuous electric current by the manual operation operator.When overload or short circuit appear in electric current in the solenoid, the iron core that the electromagnetic energy that solenoid produces promotes time-delay pipe the inside moves upward, attraction armature rotates, the little pin that stir on the snap close lower end of armature rotates counterclockwise it, to discharge keeper, under the effect of spring force, can make acting arm move to open position.When moving contact and fixed contact are opened, between the contact of motion, can produce electric arc, it is first magnetic field of central axis with the arc current that arc current produces one, from the direction of arc current, judges that with " right-hand rule " this first magnetic field is clockwise direction.Have one second magnetic field between two permanent magnets, such first magnetic field and second magnetic field have produced a power value jointly, and this power value makes the electric arc outward movment.The result shifts arc current, away from contact.The arc current that departs from outwards moves to the place, slit of housing, and heat that arc current produces and pressure are directly discharged from the inside of housing.The path of the electric arc of deflection and elongation electric arc has increased the voltage drop of electric arc, has reduced the energy of electric arc, makes moving contact and fixed contact reduce damage, has prolonged the life-span of circuit breaker.

The utility model is compared with prior art, and its effect is actively with tangible.The utility model has been cancelled arc quenching plate in the arc control device of existing electromagnetic breaker, on the insulation shell of moving contact stroke both sides, be provided with two permanent magnets, open when producing electric arc at moving contact and fixed contact, utilize two magnetic fields between the permanent magnet that arc current is shifted and away from contact, the electric arc of deflection and the arc path of elongation have increased the voltage drop of electric arc, reduce the energy of electric arc, made moving contact and fixed contact reduce damage, prolonged the life-span of circuit breaker.

Description of drawings:

Fig. 1 is the structural representation that impels the dc circuit breaker of blow-out with magnet of the present utility model.

Fig. 2 is the structural representation of dc circuit breaker when magnet holder moves on on one side that impels blow-out with magnet of the present utility model.

Fig. 3 is the upward view of the moving contact in the dc circuit breaker that impels blow-out with magnet of the present utility model.

Fig. 4 is another upward view of the moving contact in the dc circuit breaker that impels blow-out with magnet of the present utility model.

Fig. 5 is another upward view of the moving contact in the dc circuit breaker that impels blow-out with magnet of the present utility model.

Fig. 6 is the stereogram of the magnet holder in the dc circuit breaker that impels blow-out with magnet of the present utility model.

Embodiment:

Embodiment 1:

As Fig. 1, Fig. 2, Fig. 3 and shown in Figure 4, the dc circuit breaker of blow-out that impels with magnet of the present utility model is by an electromagnetic breaker, a permanent magnet 14 and a permanent magnet 19 constitute, described electromagnetic breaker includes insulation shell 11, first binding post 20, second binding post 21, solenoid 4, the time-delay pipe, iron core, support, coil rack, armature 1, snap close 10, acting arm 6, operator 2 and keeper 5, described first binding post 20, second binding post 21, solenoid 4, time-delay pipe 3, iron core, support, coil rack, armature 1, snap close 10, acting arm 6, operator 2 and keeper 5 all are arranged in the described insulation shell 11, solenoid 4 is arranged on the coil rack, coil rack be arranged on time-delay pipe 3 around, iron core is arranged in the time-delay pipe 3, stent support coil rack and armature 1, one end of armature 1 is arranged on the top of iron core, the stroke of the other end of armature 1 is through snap close 10, snap close 10 is arranged in the stroke of keeper 5, keeper 5 is arranged between acting arm 6 and the operator 2, first binding post 20 is connected with solenoid 4 by lead 22, solenoid 4 is connected with moving contact 24 by lead 23, moving contact 24 is arranged on the acting arm 6, be fixedly connected with a fixed contact 25 on second binding post 21, be provided with slit 13 in the insulation shell 11 of moving contact 24 stroke both sides, wherein, permanent magnet 14 and permanent magnet 19 are separately positioned on the insulation shell 11 of moving contact 24 stroke both sides, and it is identical that the magnetic pole of permanent magnet 14 and permanent magnet 19 is provided with direction.

As shown in Figure 6, further, the insulation shell 11 of moving contact 24 stroke both sides is provided with a magnet holder 16, and permanent magnet 14 and permanent magnet 19 are separately positioned on the two ends of magnet holder 16.

Further, the insulation shell 11 of moving contact 24 stroke both sides is provided with arc quenching plate mounting groove 12, and the inboard of described magnet holder 16 is provided with flange 26, and magnet holder 16 is installed on the described arc quenching plate mounting groove 12 by described flange 26.

Further, permanent magnet 14 and permanent magnet 19 constitute by containing the neodymium alloy piece.

Further, the lateral location of insulation shell 11 is provided with an exhaust outlet.

As Fig. 3, Fig. 4 and shown in Figure 5, in an embodiment of the present utility model, in the arc control device of electromagnetic breaker, no longer be provided with arc quenching plate, permanent magnet 14 and permanent magnet 19 are arranged on the insulation shell 11 of moving contact 24 stroke both sides.First binding post 20 and second binding post 21 are connected in the protected loop.Moving contact 24 contacts with fixed contact 25, and electric current can flow through solenoid 4.Unless when electric current flows through, it is disconnected, forms a loop with loading on otherwise electromagnetic breaker provides continuous electric current by manual operation operator 2.When overload or short circuit appear in electric current in the solenoid 4, the iron core that the electromagnetic energy that solenoid 4 produces promotes time-delay pipe 3 the insides moves upward, attract armature 1 to rotate, the little pin that stir on the snap close 10 lower end of armature 1 rotates counterclockwise it, to discharge keeper 5, under the effect of spring force, can make acting arm 6 move to open position.When moving contact 24 and fixed contact 25 are opened, between the contact of motion, can produce electric arc, it is first magnetic field 18 of central axis with arc current A that arc current A produces one, from the direction of arc current A, judges that with " right-hand rule " this first magnetic field 18 is clockwise directions.Have one second magnetic field 15 between permanent magnet 14 and the permanent magnet 19, such first magnetic field 18 and second magnetic field 15 have produced a power value 17 jointly, and this power value 17 makes the electric arc outward movment.The result shifts arc current A, away from contact.The arc current B that departs from outwards moves to 13 places, slit of insulation shell 11, and heat that arc current B produces and pressure are directly discharged from the inside of insulation shell 11.The path of the electric arc of deflection and elongation electric arc has increased the voltage drop of electric arc, has reduced the energy of electric arc, makes moving contact 24 and fixed contact 25 reduce damage, has prolonged the life-span of circuit breaker.

In the embodiment of Fig. 6, magnet holder 16 is designed to be installed to arc quenching plate mounting groove 12 places of original circuit breaker on the insulation shell 11.At the two ends of magnet holder 16 zone that falls in 27 is arranged respectively, be used for placing permanent magnet 14 and permanent magnet 19.

As shown in Figure 3, arc current A from as the position described Fig. 2 by moving to as the arc current B position among Fig. 5 and Fig. 2 at a long curved path, be the result that magnetic flux caused who produces by permanent magnet 14 and permanent magnet 19.

It should be noted that and select the magnet of different parameters can provide the arc deflection position different effects.Certainly, increase more magnet, to realize the bigger deflection of arc current.

Claims

1. dc circuit breaker that impels blow-out with magnet, constitute by an electromagnetic breaker and two permanent magnets, described electromagnetic breaker includes insulation shell, first binding post, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper, described first binding post, second binding post, solenoid, the time-delay pipe, iron core, support, coil rack, armature, snap close, acting arm, operator and keeper all are arranged in the described insulation shell, solenoid is arranged on the coil rack, coil rack be arranged on the time-delay pipe around, iron core is arranged in the time-delay pipe, stent support coil rack and armature, one end of armature is arranged on the top of iron core, the stroke of the other end of armature is through snap close, snap close is arranged in the stroke of keeper, keeper is arranged between acting arm and the operator, first binding post is connected with solenoid by lead, solenoid is connected with moving contact by lead, moving contact is arranged on the acting arm, be fixedly connected with a fixed contact on second binding post, be provided with the slit in the insulation shell of moving contact stroke both sides, it is characterized in that: described two permanent magnets are separately positioned on the insulation shell of moving contact stroke both sides, and it is identical that the magnetic pole of two permanent magnets is provided with direction.

2. as claimed in claim 1ly impel the dc circuit breaker of blow-out with magnet, it is characterized in that: the insulation shell of moving contact stroke both sides is provided with a magnet holder, and described two permanent magnets are separately positioned on the two ends of magnet holder.

3. the dc circuit breaker that impels blow-out with magnet as claimed in claim 2, it is characterized in that: the insulation shell of moving contact stroke both sides is provided with the arc quenching plate mounting groove, the inboard of described magnet holder is provided with flange, and magnet holder is installed on the described arc quenching plate mounting groove by described flange.

4. as claimed in claim 1ly impel the dc circuit breaker of blow-out with magnet, it is characterized in that: any one described permanent magnet constitutes by containing the neodymium alloy piece.

5. as claimed in claim 1ly impel the dc circuit breaker of blow-out with magnet, it is characterized in that: the lateral location of housing is provided with an exhaust outlet.