CN2137024Y - Electronic and electromagnetic quenching switch - Google Patents

Abstract

The utility model relates to a high-voltage broken circuit quenching switch, which is composed of a static contact, a movable contact and an electronic quenching device, wherein, the static contact and the quenching device are electrically connected; the movable contact has two states of being electrically connected and disconnected with the auxiliary contact of the quenching device. When the switch is in running operation, the quenching device is in disconnected state and is lossless; when the switch is in disconnected operation, the movable contact guides electric arc to a quenching room to quench through the auxiliary contact. The switch takes air as the insulating medium, has small size, simple structure, low cost and convenient maintenance, and is used as the circuit breaker switch in middle and high voltage circuits.

Description

Electronic and electromagnetic quenching switch

The application relates to a kind of high-tension cut-off switch, especially a kind of electromagnetic arc blowout switch.

At present high-tension cut-off switch mainly contains the switch that contains various arc-extinguishing mediums, and commonly used have oil switch, a SF6 switch, and the weak point of this type of switch is easily to take place oily explosive incident or SF6 pollution, and volume is big, maintenance difficult.The comparatively advanced disconnect of another kind of widespread usage is a vacuum switch; vacuum switch has the advantage rapidly that opens circuit; but; usually vacuum switch easily causes overvoltage; the protection that generally places oily medium during open-air the use; more than the disconnection of these switches do not have tangible cut-off point, be unfavorable for safety operation.Electromagnetic arc blowout switch for no medium is not reported and application example at present both at home and abroad.

The application's purpose is to disclose a kind of with the electromagnetic arc blowout switch of air as medium.

Its technical scheme is as follows: also have an electronic electromagnetic arc-control device between the dynamic and static contact of common isolating switch, this device is composed in series by plural at least arc control device, the end of each arc control device has auxiliary contact to draw, there is the shunting impedance electricity to connect between the contact of each arc control device, some arc extinguishing grid pieces are arranged in each arc control device, one end of this electronic electromagnetic arc-control device connects by a blowout coil and fixed contact electricity, and all the other auxiliary contacts have and connect with the moving contact electricity or disconnect two states.

When isolating switch was closed, moving contact and fixed contact electricity connect, and arc-control device is in the circuit breaker nondestructive state.When isolating switch disconnected, dynamic/static contact separated, and moving contact is successively by each auxiliary contact, under the guiding of blowout coil and each contact, high-voltage arc being introduced each arc control device carry out arc extinguishing, is that the electric insulation between the dynamic/static contact is guaranteed by air gap distance, reaches the purpose that arc extinguishing opens circuit.

The electronic electromagnetic arc-control device of above-mentioned high pressure arc-suppressing switch, can comprise four arc extinguishing sections of three arc control device, between each arc control device insulating barrier is arranged, it in first arc control device first arc extinguishing section, its shunting impedance is a blowout coil, this blowout coil is to utilize the magnetic blow-out effect to make electric arc be transferred to each arc control device rapidly along the direction that requires on the one hand as the shunting impedance circuit of first arc control device on the other hand.Second arc control device contain the two the 3 two arc extinguishing sections, and the shunting impedance of the second arc extinguishing section is one group high back-pressure diode and shunt resistance.High back-pressure diode mainly is a characteristic of utilizing its forward conduction pressure drop very little, electric arc is extinguished, simultaneously in arc control device, utilize high counter-pressure-ing characteristic, when making arc current reverse, can only pass through very little reverse current, during this period of time impel other each arc extinguishing section dielectric to recover and arc extinguishing.This high back-pressure diode is in switch obstructed overcurrent in service, only when the switch disconnection arc extinguishing short time pass through electric current, so allow the forward conduction current value, should be according to less than allowing the surge current value selected, with being perfectly safe of assurance diode.In addition in order further to protect high back-pressure diode; play shunting action can for this high back-pressure diode one group of Zinc-oxide piezoresistor in parallel; when total permission reverse voltage value of the number sum of high back-pressure diode serial connection is higher than the fault recovery ceiling voltage, then can not add Zinc-oxide piezoresistor.The shunting impedance of the 3rd arc control device is the bigger shunt resistances of a resistance.The 3rd arc control device contain the 4th arc extinguishing section, its arc-chute is one group of metal arc extinguishing grid pieces, and no shunt circuit on it is when moving contact moves to beyond last auxiliary contact, insulation guarantees by air gap distance between the dynamic and static contact, to guarantee the safety of cutting off the power supply.

Technique scheme only is made up of electronic component and arc extinguishing grid pieces, and high-voltage arc is induced arc extinguishing, the phenomenon of damming suddenly can not occur, and tangible cut-off point is arranged, and it is low to have a cost, and volume is little, the advantage of being convenient to keep in repair.

Be described in further detail below in conjunction with the principle of accompanying drawing this high pressure arc-suppressing switch.

Fig. 1 is the shape assumption diagram of the embodiment of the present application.

Fig. 2 master's fixed contact, auxilliary contact installation diagram.

Fig. 3 is the circuit diagram of the embodiment of the present application.

Fig. 4 is the cut-away view of electronic arc-suppressor.

Fig. 5 is the B-B view of Fig. 4.

Fig. 6 is the C-C view of Fig. 4.

Fig. 7, Fig. 8 are a kind of plastics arc-chute.

Be fixed on switch insulation 11 referring to accompanying drawing 1, Fig. 2 fixed contact 1 and arc-control device 9, moving contact 2 and conducting rod 8, be fixedly connected, the other end of conducting rod is connected on connecing on the electroplax of insulator 4, this connects and also is fixed with moving contact fixed guide plate 5 on the electroplax, and insulator 6 works to handle conducting rod and is connected with operating device on it.Auxiliary contact 3 is separately fixed on the insulation board 13 of insulator 11 with fixed contact, and arc-control device is fixing by fixed head 7 and fixed base plate 12, and whole switch is fixedly supported on the switch bracket 10.

In the schematic diagram shown in the accompanying drawing 3, the fixed contact K4 of switch and moving contact K _BTwo breakpoint electricity with power source bus C load side line connect respectively, in addition fixed contact K _AAlso join by blowout coil W1 and arc-suppression circuit, arc-suppression circuit includes four arc extinguishing section G1, G2, G3, G4, and end contact K1, K2, K3, K4, K5 arranged respectively, each arc extinguishing section all has some arc-chutes, in G1, G2 arc extinguishing section, all the other are the ceramic arc-chute except that the most last two metal gate sheets, are the metal gate sheet in G3, the G4 arc extinguishing section.Also have a blowout coil W2 in parallel between K1 and K2, when coil impedance hour, can go here and there a small resistor again except that arc-chute is arranged, the shunting impedance in parallel with the arc-chute of K2, K3 is one group high back-pressure diode D1, D2 and shunting Zinc-oxide piezoresistor R _V, shunt resistance R2 is arranged between K3 and K4, only there is the metal arc-chute not have shunt resistance between K4 and the K5.

When switch closure, moving contact K _BWith fixed contact K _AClosely electricity connects, and makes circuit connect normal operation, and this moment, arc-suppression circuit was in the lossless state that opens circuit.When switch need disconnect, dynamic/static contact separated, K _BTo away from K _ADirection motion, at first connect with the K1 electricity, make blowout coil W1 have electric current to pass through and produce strong magnetic force, the high-voltage arc that produces when opening circuit imports arc control device, K _BContinue to move to K2, at this moment, one part of current promptly enters blowout coil W2, arc voltage is set up at arc-chute two ends in the G1, then moving contact continues to move to K3, the K4 place, this moment is because blowout coil W1, the existing very big electric current of W2 passes through, at arc control device G1, G2, form very strong magnetic field in the G3, here blowout coil W1, Lip river, the magnetic field logical sequence magnetic force direction that W2 wiring direction all makes electric current produce is pushed electric arc in the arc-chute to, because reactive component is less, the electric current and voltage phase difference is also very little, so the direction that the electric arc direction remains in arc extinguishing grid pieces is constant, the structure form of the thermal current effect of air and each end contact in addition, the guide effect of the shape of configuration mode and arc-chute, make electric arc along K2, the very fast introducing of K3 end contact G2, in the G3 arc-chute, at this moment an arc current part is by resistance R 3, a part forms electric arc in G3, when if the sense of current is consistent with high back-pressure diode current flow direction in G2, because the design of R1 resistance value is less, so K2, the pressure drop of K3 point-to-point transmission is very little, and electric arc promptly extinguishes in the half cycle of diode current flow.Medium in the arc control device G2 section also recovers simultaneously.When the conducting direction of the sense of current and high back-pressure diode D1, D2 is opposite, when voltage does not also rise to the thresholding of piezo-resistance conducting, during this period of time, medium all recovers to some extent in the arc control device section, be instantaneous especially, when voltage rises to piezo-resistance R according to the theoretical steel disc of Si Liebin medium recovery when the current over-zero _VDuring the conducting thresholding, the piezo-resistance conducting, simultaneously other sections pass through by discharging currents such as bridging coil, resistance, and when being higher than discharge voltage in the respective section as foundation voltage, then electric arc produces again in these sections.Along with the continuation campaign electric arc of moving contact KB enters in the arc extinguishing section G4, here arc energy consumes a part again, the also corresponding minimizing of arc current, can't extinguish along with contact continues the whole auxiliary contacts of motion disengaging as electric arc, enter in the air-gap, arc current is rule cycle repetition as previously mentioned in whole arc-chutes, because the arc road is more and more long, need arcing voltage more and more high, last so that all extinguish.

Fig. 4, Fig. 5, Fig. 6 have reflected the structural representation of arc-control device among a kind of embodiment, and among the figure, first arc control device 14 and the 3rd arc control device 15 are positioned at a side of arc-control device, and have insulating barrier 24 that two arc control device are isolated.Second arc control device 16 contain two arc extinguishing section G2, G3, and 1 is fixed contact K among the figure _A, the 2nd, moving contact K _BEnd contact K1, K2, K3, K4, K5 are respectively as grid sheet 3,19,23,20,26; particularly K3 end contact 23 only is that resistance box 22 middle electricity with a certain arc-chute connect the grid sheet; do not contact with moving contact, whole interrupter cartridge is equipped with an insulation crust 21 protections, can offer exhausting window on the containment vessel; for conserve space; high back-pressure diode 28 can be inserted in the blowout coil W227, and 17 are depicted as the ceramic arc-chute among the figure, and 18 are depicted as the metal arc-chute.

Also can use another kind of arc-chute among the embodiment, as Fig. 7, plastics narrow slit dioptric type arc extinguishing grid pieces shown in Figure 8, this grid sheet is made up of two plastics arc-chutes 29, and narrow slit labyrinth gap 30 is arranged between the arc-chute.

Claims (3)

1, a kind of high pressure arc-suppressing switch, contain fixed contact and moving contact, it is characterized in that: it also has an electronic electromagnetic arc-control device, this device is composed in series by plural at least arc control device, there is the shunting impedance electricity to connect between the auxiliary contact of arc control device, arc-chute is arranged in the arc control device, and an end of this electronic electromagnetic arc-control device connects by a magnetic coil W1 and fixed contact electricity, and all the other are respectively held contact to have to connect with the moving contact electricity or disconnect two states.

2, arc-suppressing switch as claimed in claim 1, it is characterized in that: described electronic electromagnetic arc-control device contains four arc extinguishing sections of three arc control device, between each arc control device insulating barrier is arranged, it in first arc control device first arc extinguishing section, its shunting impedance is a blowout coil W2, second arc control device contain the two the 3 two arc extinguishing sections, and the shunting impedance of the second arc extinguishing section is one group high back-pressure diode and shunting piezo-resistance, and the shunting impedance of the 3rd arc extinguishing section is a shunt resistance.The 3rd arc control device contain the 4th arc extinguishing section, and this arc extinguishing section does not have shunting impedance.

3, arc-suppressing switch as claimed in claim 1 or 2, the arc-chute that it is characterized in that the described first arc extinguishing section are a kind of plastics narrow slit dioptric type arc extinguishing grid pieces.

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