CN203398028U - Non-polar high-voltage direct current contactor arc extinguishing system of reliable arc extinguishing - Google Patents

Abstract

The utility model discloses a non-polar high-voltage direct current contactor arc extinguishing system of a reliable arc extinguishing. The system includes a sealed contact chamber of a contactor, and at least two permanent magnets; two static contacts are fixed in the contact chamber and two normally-open movable contacts are movably arranged in the contact chamber; the two movable contacts and the two static contacts are correspondingly matched with each other along the vertical direction; the permanent magnets are arranged at an extension line side of a connecting line of the two static contacts; and the magnetic direction of the permanent magnets is arranged to be non vertical to the current direction between the dynamic contacts and the static contacts. In the utility model, the specially-structured arc extinguishing magnetic blocks and radiating plates are arranged in the contact chamber of the direct current contactor, so that the times of the electrical service life of the load switching of the direct current contactor can be improved by more than ten times; the no polar requirement of the contact is realized at the same time; and the contactor with the working voltage of 200 to 1000V is enabled to truly fit the service life requirement of the whole corollary equipment.

Description

The nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing

Technical field

The utility model relates to a kind of D.C. contactor, particularly relates to a kind of nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing.

Background technology

At present, along with scientific and technical development, in industries such as electric automobile, engineering machinery, luminous energy, wind energy plants, be all tending towards adopting DC power system more than 200～750VDC, so that higher power to be provided.

The existing supporting best D.C. contactor of performance is with it sealed contactor, although its relevant multinomial disclosed technology can realize the handover operation under high power load, but band carry to switch, and to bear number of times generally lower, particularly under the loading condition more than 200A320VDC, all only can realize the working life of thousands of times, and overload condition and reverse current can obviously reduce working life number of times, have a strong impact on its reliability as main power switch, caused its corollary equipment that high failure risk is appearred in the intermediary and later stages using.

So due to direct current not the zero crossing as alternating current cannot naturally extinguish, therefore the arc quenching system of D.C. contactor directly determines arc extinguishing ability, and arc extinguishing ability has determined switching capacity and the life-span of contactor.

Utility model content

The purpose of this utility model is to overcome the deficiency of prior art, a kind of nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing is provided, and can solving existing sealed type D.C. contactor, under the above high power load condition of 500～1000V level 200A, to switch the life-span low and cannot bear the defect that reverse current switches; And there is compact conformation, realize volume minimum in the contactor of same capacity, the feature of saving installing space.

The utility model solves the technical scheme that its technical problem adopts: a kind of nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing, comprises contact chamber and at least two permanent magnets of the sealed type of a contactor; Two fixed contacts are fixedly housed in described contact chamber and movable two moving contacts of often opening are housed, two moving contacts and two fixed contacts are respectively along vertical corresponding matching; Described permanent magnet is contained in the extended line side of two fixed contact lines, the magnetic direction of described permanent magnet be made as and dynamic and static contact between the sense of current be non-perpendicular state.

The contact-making surface of fixed contact and moving contact when fixed contact and the contact-making surface of moving contact or the lower surface of permanent magnet are higher than adhesive during lower than adhesive in the upper surface of described permanent magnet.

Further, also comprise some heat radiating metal grid sheets; Described heat radiating metal grid sheet is contained in described contact chamber, and described heat radiating metal grid sheet is along being vertically arranged on the contact periphery in region of dynamic and static contact.

Described permanent magnet is two, and two permanent magnet symmetries are contained in the both sides in region between two fixed contacts.

The magnetic direction of described two permanent magnets is identical.

The magnetic direction of described two permanent magnets is contrary.

Described two moving contacts are connected and form bridge-type movable contact spring.

Described permanent magnet is contained in contact chamber, and by plastic septum with to contact the interior space isolated.

Described contact chamber adopts plastic structural part to be made, and is provided with the preformed groove of some heat radiating metal grid sheets that are used for pegging graft corresponding in described plastic structural part.

Described plastic structural part consists of bracing frame and fixed mount, bracing frame is connected with fixed mount and surrounds the described interior space that contacts, described preformed groove is located in bracing frame, and described two permanent magnets are contained in respectively in fixed mount, and described fixed mount also has integrated described plastic septum.

The nonpolarity high-voltage DC contactor arc quenching system of a kind of reliable arc extinguishing of the present utility model, consists of contact chamber, permanent magnet and the heat radiating metal grid sheet of sealed type, the extended line side that permanent magnet is positioned at two fixed contact lines is set, and the magnetic direction of permanent magnet is made as with moving, the sense of current between fixed contact is non-perpendicular state, preferred mode be the magnetic direction of permanent magnet be made as be parallel to moving, the sense of current between fixed contact, the magnetic direction that is permanent magnet is above-below direction, the position of permanent magnet, preferred mode is the contact-making surface of fixed contact and moving contact during lower than adhesive or the contact-making surface of fixed contact and moving contact during higher than adhesive, make the magnetic line of force in contact, divide section to form the diversity horizontal component vertical with arc current direction of strong and comparatively dense, the electric arc of each different contact point is produced to the different magnetic blow-out power of direction, electric arc that concentrate or likely stack is disperseed, elongate and blow to heat radiating metal grid sheet, area of dissipation by metal gate sheet reduces rapidly the temperature of the electric arc that contacts with it, and extinguish.Thereby effectively reduced the burning of electric arc continuous high temperature, contact is produced to the harmful effects such as loss, adhesion, thus safety in utilization and the useful life of having improved contactor.

The utility model is a kind ofly to adopt permanent magnet to produce magnetic quenching to adopt fin as the high-performance direct current contactor arc quenching system that there is no polar requirement of cooling arc extinguishing simultaneously.It is applicable to the D.C. contactor of bridge-type double-breakpoint structure, is mainly used in the forward and reverse change-over circuit control of electrical source exchange and the uninterruptible power system of electric automobile, engineering machinery, luminous energy, wind energy etc.

The beneficial effects of the utility model are:

Owing to having adopted the extended line side that permanent magnet is contained in to two fixed contact lines, and the magnetic direction of permanent magnet is made as and dynamic and static contact between the sense of current be non-perpendicular state; And by described heat radiating metal grid sheet along being vertically arranged on the contact periphery in region of dynamic and static contact.Above-mentioned this design feature of the present utility model, the mode arc extinguishing of the enough dispersion electric arc of energy and increasing area of dissipation, electric arc cooling rate is fast, and arc extinguishing is reliable, and the destruction that electric arc produces contact is little.Through sample making and test, show, adopt the high-voltage DC contactor of this arc quenching system, the electric life number of times that carries switching for high-power nominal load band can improve more than ten times.Meanwhile, this arc quenching system is simple in structure, and using value is high.And compact conformation, compares like product volume minimum.

Below in conjunction with drawings and Examples, the utility model is described in further detail; But the nonpolarity high-voltage DC contactor arc quenching system of a kind of reliable arc extinguishing of the present utility model is not limited to embodiment.

Accompanying drawing explanation

Fig. 1 is the sectional structure schematic diagram of a kind of concrete contactor of the present utility model;

Fig. 2 is the perspective view of arc quenching system critical piece of the present utility model;

Fig. 3 is the magnetic circuit schematic diagram of arc quenching system of the present utility model;

Fig. 4 is the contrast schematic diagram of a kind of more undesirable magnet steel position magnetic circuit of arc quenching system of the present utility model;

Fig. 5 is the another kind of magnet steel position magnetic circuit schematic diagram of arc quenching system of the present utility model;

Fig. 6 is magnetic circuit horizontal component schematic diagram and the arc quenching principle structure vertical view of arc quenching system of the present utility model;

Fig. 7 is the arc quenching principle structure vertical view of two permanent magnet magnetisms after arranging on the contrary in arc quenching system of the present utility model;

Fig. 8 is the arc quenching principle graph structure vertical view of contact current after oppositely in arc quenching system of the present utility model.

Embodiment

Embodiment,

Shown in Fig. 1, Fig. 2, the nonpolarity high-voltage DC contactor arc quenching system of a kind of reliable arc extinguishing of the present utility model, comprises contact chamber 1 and two permanent magnets 2 of the sealed type of a contactor; At interior two fixed contacts 3 that are fixedly equipped with of described contact chamber 1, with activity, two moving contacts of often opening 4 are housed, two moving contacts 4 with two fixed contacts 3 respectively along vertical corresponding matching, in the present embodiment, two moving contacts are connected and have formed bridge-type movable contact spring, certainly, two moving contacts can be also Split type structures; Two permanent magnets 2 are contained in respectively the extended line side of two fixed contact lines, two permanent magnet 2 symmetries are contained in the both sides in region between two fixed contacts, in the present embodiment, adopted two permanent magnets, certainly, the both sides that more permanent magnet region between two fixed contacts is set are also fine; The present embodiment Zhong，Wei contact disjunction place produces best magnetic field effect, the contact-making surface of the position of two permanent magnets 2 fixed contact and moving contact during lower than adhesive; The magnetic direction of two permanent magnets 2 is parallel to respectively the sense of current between dynamic and static contact, being arranged to parallel mode is best effect, certainly, if the magnetic direction of permanent magnet is made as and dynamic and static contact between the sense of current to be non-perpendicular state be exactly feasible.

Further, also comprise some heat radiating metal grid sheets 5; Described heat radiating metal grid sheet 5 is contained in described contact chamber 1, and described heat radiating metal grid sheet 5 is along being vertically arranged on the contact periphery in region of dynamic and static contact.

The magnetic direction of two permanent magnets 2 can be arranged to identical, also can be arranged to contrary.

Described two permanent magnets 2 are contained in contact chamber respectively, and by plastic septum 11 with to contact the interior space isolated.

Described contact chamber 1 adopts plastic structural part to be made, and is provided with the preformed groove of some heat radiating metal grid sheets that are used for pegging graft corresponding in described plastic structural part.

Described plastic structural part consists of bracing frame 12 and fixed mount 13, bracing frame 12 is connected with fixed mount 13 and surrounds the described interior space that contacts, described preformed groove is located in bracing frame 12, described two permanent magnets 2 are contained in respectively in fixed mount 13, described fixed mount 13 also has integrated described plastic septum 11, that is, plastic septum 11 is to be produced on fixed mount 13.

As shown in Figure 3, the magnetic line of force 20 sends from the permanent magnet N utmost point, gets back to generation magnetic field, contact-making surface place, S Ji，Bing contact, and the magnetic direction of its every bit is different.From the magnetic direction B of physical property Shang Jiang， any point, can resolve into a horizontal component Bx and a vertical component By.Electric arc during contact disjunction can be understood as the electric current of segment mobile between fixed contact 3 and moving contact 4 in macroscopic view, and according to left hand rule, electric current will produce electromagnetic force under vertical with it magnetic field, i.e. " magnetic blow-out ".Thereby horizontal component Bx direction is vertical with electric arc direction will produce magnetic blow-out power, vertical component By does not tell on to electric arc with electric arc direction is parallel.

Compare, as shown in Figure 4, the permanent magnet that Ci Zhong position arranges, the upper surface of permanent magnet is the contact-making surface lower than fixed contact higher than the contact-making surface of fixed contact and lower surface, its magnetic line of force divides section part the to form horizontal component Bx for electric arc generation magnetic blow-out effect in contact is less, although can realize magnetic blow-out function, effect is not remarkable.Thereby, for improving magnetic quenching performance, the position of permanent magnet, the contact-making surface of fixed contact and moving contact when the contact-making surface (as shown in Figure 3) of fixed contact and moving contact or lower surface are higher than adhesive when preferably mode Shi Shiqi upper surface is lower than adhesive, (as shown in Figure 5).

As shown in Figure 6, according to the magnetic line of force distribution property of permanent magnet, its send magnetic force around the surrounding of permanent magnet.From vertical view 4, arrow line S1 is the sense of current, arrow line S2 is magnetic line of force horizontal component, arrow line S3 is contact point electric arc magnetic blow-out direction, S4 represents the electric current between the inside dynamic and static contact of vertical paper, S5 represents the electric current between the outside dynamic and static contact of vertical paper, and the horizontal component at contact-making surface place, contact of the magnetic line of force is as shown in the arrow line S2 in Fig. 6.When fixed contact 3 contacts with moving contact 4, on microcosmic, be by many some contact conductions, during the disjunction of contact, at these contact point places, produce electric arc, in macroscopic view, electric arc can be regarded as to segment electric current, as shown in the S4 in Fig. 6, S5.According to left hand rule, the electric arc at different contact points place is subject to the equal difference of force direction as shown in Figure 6.Under the magnetic blow-out effect of this kind of character, electric arc is not dispelled rapidly can superpose, and is longitudinally elongated, cooling in sealing gas.Meanwhile, electric arc is blown to metal gate sheet 5 contact with it, and metal gate sheet 5 absorbs rapidly the heat of electric arc and distributes by larger radiating surface, makes electric arc cooling.After the energy balance condition of electric arc sustained combustion is destroyed, will extinguish rapidly.

As shown in Figure 7, arrow line S1 is the sense of current, arrow line S2 is magnetic line of force horizontal component, arrow line S3 is contact point electric arc magnetic blow-out direction, and S4 represents the electric current between the inside dynamic and static contact of vertical paper, and S5 represents the electric current between the outside dynamic and static contact of vertical paper, after permanent magnet 2 directions are made as on the contrary, the direction of contact-making surface place, Shi Liangge contact electric arc magnetic blow-out is to both sides and be centrosymmetric, and has avoided the danger of both positive and negative polarity arc short circuit completely, and arc extinguishing is more reliable.After the external loading sense of current accessing by contact is reverse, as shown in Figure 8, arrow line S1 is the sense of current, arrow line S2 is magnetic line of force horizontal component, arrow line S3 is contact point electric arc magnetic blow-out direction, S4 represents the electric current between the inside dynamic and static contact of vertical paper, S5 represents the electric current between the outside dynamic and static contact of vertical paper, during contact disjunction, under the magnetic blow-out direction of contact-making surface and forward current condition, be rightabout, and the direction of contact-making surface place, Liang Ge contact electric arc magnetic blow-out still keeps Central Symmetry, and arc extinction performance is unaffected.

Magnet steel modes of emplacement of the present utility model, is the extended line side that is positioned at fixed contact line on the one hand, allows arc blow-out walk toward arc extinguishing grid pieces direction, plays nonpolarity effect.On the other hand, the polarity of magnet steel can adopt contrary up and down, the magnetic field forming like this, and definite is not the parallel magnetic field that a pair of magnet steel acting in conjunction forms, but single magnet steel polarity forms an annular divergent magnetic field up and down on the contrary.The benefit playing is: 1, nonpolarity effect, and both sides are walked in striking; 2, single magnet steel forms toroidal magnetic field, strong near contact magnetic field magnetic quenching effect; 3, annular divergent magnetic field, does not concentrate therefore both sides are roughly walked in striking, but has certain scope, and cooling arc quenching effect is better.Normal conditions, arc extinguishing grid pieces horizontally set, the effect of generally playing is that long arc is cut off into short arc.Heat radiating metal grid sheet in the utility model is along being vertically arranged on the contact periphery in region of dynamic and static contact, can not play the long arc effect that cuts off, be more absorption, heat radiation and cooling long arc, play auxiliary extinction of arc effect (arc extinguishing is mainly by inert gas in cavity).

The nonpolarity high-voltage DC contactor arc quenching system of a kind of reliable arc extinguishing of the present utility model, consists of contact chamber 1, permanent magnet 2 and the heat radiating metal grid sheet 5 of sealed type, the extended line side that two permanent magnets 2 lay respectively at two fixed contact lines is set, and the contact-making surface of the position of permanent magnet 2 fixed contact and moving contact during lower than adhesive or the contact-making surface of fixed contact and moving contact during higher than adhesive, magnetic is above-below direction, utilize the magnetic line of force in contact, to divide the diversity horizontal component vertical from arc current direction of section to produce the different magnetic blow-out power of direction to the electric arc of each different contact point, electric arc that concentrate or likely stack is disperseed, elongate and blow to heat radiating metal grid sheet, area of dissipation by metal gate sheet reduces rapidly the temperature of the electric arc that contacts with it, and extinguish.Thereby effectively reduced the burning of electric arc continuous high temperature, contact is produced to the harmful effects such as loss, adhesion, thus safety in utilization and the useful life of having improved contactor.

The utility model is a kind ofly to adopt permanent magnet to produce magnetic quenching to adopt fin as the high-performance direct current contactor arc quenching system that there is no polar requirement of cooling arc extinguishing simultaneously.It is applicable to the D.C. contactor of bridge-type double-breakpoint structure, is mainly used in the forward and reverse change-over circuit control of electrical source exchange and the uninterruptible power system of electric automobile, engineering machinery, luminous energy, wind energy etc.

Above-described embodiment is only used for further illustrating the nonpolarity high-voltage DC contactor arc quenching system of a kind of reliable arc extinguishing of the present utility model; but the utility model is not limited to embodiment; any simple modification, equivalent variations and modification that every foundation technical spirit of the present utility model is done above embodiment, all fall in the protection range of technical solutions of the utility model.

Claims (10)

1. a nonpolarity high-voltage DC contactor arc quenching system for reliable arc extinguishing, comprises contact chamber and at least two permanent magnets of the sealed type of a contactor; Two fixed contacts are fixedly housed in described contact chamber and movable two moving contacts of often opening are housed, two moving contacts and two fixed contacts are respectively along vertical corresponding matching; It is characterized in that: described permanent magnet is contained in the extended line side of two fixed contact lines, the magnetic direction of described permanent magnet be made as and dynamic and static contact between the sense of current be non-perpendicular state.

2. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 1, is characterized in that: the contact-making surface of fixed contact and moving contact when fixed contact and the contact-making surface of moving contact or the lower surface of permanent magnet are higher than adhesive during lower than adhesive in the upper surface of described permanent magnet.

3. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 1 and 2, is characterized in that: further, also comprise some heat radiating metal grid sheets; Described heat radiating metal grid sheet is contained in described contact chamber, and described heat radiating metal grid sheet is along being vertically arranged on the contact periphery in region of dynamic and static contact.

4. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 1 and 2, is characterized in that: described permanent magnet is two, and two permanent magnet symmetries are contained in the both sides in region between two fixed contacts.

5. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 4, is characterized in that: the magnetic direction of described two permanent magnets is identical.

6. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 4, is characterized in that: the magnetic direction of described two permanent magnets is contrary.

7. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 1 and 2, is characterized in that: described two moving contacts are connected and form bridge-type movable contact spring.

8. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 3, is characterized in that: described permanent magnet is contained in contact chamber, and by plastic septum with to contact the interior space isolated.

9. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 8, it is characterized in that: described contact chamber adopts plastic structural part to be made, in described plastic structural part, be provided with the preformed groove of some heat radiating metal grid sheets that are used for pegging graft corresponding.

10. the nonpolarity high-voltage DC contactor arc quenching system of reliable arc extinguishing according to claim 9, it is characterized in that: described plastic structural part consists of bracing frame and fixed mount, bracing frame is connected with fixed mount and surrounds the described interior space that contacts, described preformed groove is located in bracing frame, described two permanent magnets are contained in respectively in fixed mount, and described fixed mount also has integrated described plastic septum.

Images