CN101789338A - Self-energy air-blowing medium-voltage high-DC quick current-limiting circuit breaker - Google Patents

Abstract

The invention discloses a self-energy air-blowing medium-voltage high-DC quick current-limiting circuit breaker. An insulating baffle is arranged to design a space round a contact system so as to achieve the purpose of utilizing self energy of an electric arc to exert the function of high-speed air flow arc blowing without an additional air blowing mechanism. The strong air blowing function can shorten the stagnation time of the electric arc, accelerate the electric arc to transfer from a contact to an arc way, lead the electric arc to quickly enter an arc extinguishing chamber, and shorten the on-off time, thereby realizing the purpose of quicker short-circuit current limiting.

Description

Press high-DC quick current-limiting circuit breaker in a kind of self-energy air-blowing

Technical field

The present invention relates to the current limiting technique on the straightening stream large current interruption device in a kind of being applied to, press high-DC quick current-limiting circuit breaker in particularly a kind of self-energy air-blowing.

Background technology

Getting in touch of DC power-supply system and people's daily life is more and more tightr, has all adopted DC power-supply system in many important industries such as China's city trolley bus, subway, smelting, chemical industry, stocking, ship electricity, mine at present.Wherein, dc circuit breaker is the assurance of DC power-supply system safe operation, has the defencive function of reliable cut-out DC loop fault electric current.Along with China's economy develops rapidly and the modernization progressively of industrial traffic department, requirement to the electric power system reliability is also more and more stricter, direct current power load capacity also continues to increase, caused continuous increase thus, simultaneously its break performance has been proposed more and more higher requirement the dc circuit breaker demand.Simultaneously, along with the increase of electric pressure and rated current, cut-offfing of high-capacity direct current short circuit current becomes difficult unusually, and the requirement of its switch off time is also more and more harsher.Therefore have higher requirement for the quick current limiting capacity of dc circuit breaker.

In the middle of existing current limliting breaking technology, the method for air-flow arc blow-out has been a kind of generally acknowledged effective ways, has all proposed the circuit breaker of blow arc-extinguishing mode in CN1564292A and CN1008415B etc.This method can reduce electric arc dead time, accelerates the electric arc speed of running, and improves medium recovery strength fast, thereby makes circuit breaker have higher breaking capacity.In the middle of existing circuit breaker design, the air-blowing method has following several, a kind of is by piston mechanism acting formation Compressed Gas, the gases at high pressure that form in conjunction with the arc heat expansion spray arc blow-out by spout when cut-offfing, treat to increase behind the current over-zero medium recovery strength behind the arc, the method is widely used in enclosed sulphur hexafluoride ac hv breaker at present.But this method needs independent air-blowing mechanism, and needs high-seal, and bulky presses the grade Fast DC Circuit Breaker to use in being not suitable for.Second kind is to be applied to low-pressure field, after the circuit breaker starting the arc, force air-blowing to arcing region by piston mechanism, but mechanism kinematic speed is limited, is difficult to reach good air-blowing effect.Another kind is by attaching gas exhausted material in the electric arc arcing region, and gas exhausted material can gasification produce composition cooling electric arcs such as hydrogen behind arc erosion, increase arcing region pressure simultaneously, forms the air-blowing effect, and the method is widely used in low-voltage circuit breaker.Yet under the situation of the big electric current of middle pressure, after capacity of short circuit increases, if gas exhausted material is arranged at arcing region, can gasify in a large number when arcing, the life-span significantly reduces, and presses the grade Fast DC Circuit Breaker to use in therefore also being not suitable for.

Summary of the invention

Deficiency or defective at above-mentioned prior art existence, the object of the present invention is to provide a kind of external air-blowing mechanism that need not, can utilize the electric arc self-energy to produce the air-flow arc blowing function, reduce electric arc dead time, accelerate electric arc from contact to the transfer process of running the arc road, increase fast in the self-energy air-blowing of medium recovery strength behind the arc and press high-DC quick current-limiting circuit breaker.

In order to achieve the above object, the technical solution used in the present invention is: the arc control device that comprise contact system and be arranged on the contact system both sides, said contact system comprises moving contact, the galvanic circle that fixed contact and the electric current inlet wire that is connected with fixed contact and electric current outlet constitute, it is characterized in that: join by the static contact and insulation baffle plate between two fixed contacts, be provided with an air-blowing system housing that adapts with moving contact in the upper end of moving contact, moving in air-blowing system housing, the fixed contact both sides are respectively arranged with the contact insulation barrier, in the middle of being divided into air-blowing system housing, runs the contact insulation barrier arc zone and cooling duct, both sides, run the arc zone in the middle of described and be connected, in the middle of the contact insulation barrier, offer to make and run the opening that the arc zone is connected with the cooling duct with arc control device.

Cooling duct of the present invention inwall is that planar structure, sidewall are rough waveform or offer air storage chamber on sidewall; The contact insulation barrier adopts the thin plate of arc ablation resistance material; The front region of moving contact is for running the arc zone, and the upper and lower surface of running the arc zone is copper or silver-plated copper conductor metal surface; Running the arc zone becomes " returning " font to be communicated with layout with the cooling duct at the gas medium around the contact; The cooling duct inner surface is plane or roughness.

The present invention is close to moving contact and is provided with insulation barrier, make the moving contact surrounding space form the circulation of air flow passage, after electric arc produced, especially during large current interruption, electric arc was subjected to magnetic field and thermal field and acts on arcing region and produce strong convection current, electric arc is produced strong air-blowing effect, electric arc is transferred to from contact fast run the arc road, quicken to enter arc control device, arc voltage raises fast, cold air adds between the dynamic/static contact simultaneously, increases medium recovery strength fast.

Description of drawings

Fig. 1 is an overall structure schematic diagram of the present invention;

Fig. 2 is contact system of the present invention and runs arc road schematic diagram;

Fig. 3 is an air-blowing system schematic of the present invention;

Fig. 4 is contact system of the present invention and air-blowing system profile;

Fig. 5 is that contact of the present invention is opened starting the arc stage schematic diagram;

Fig. 6 is that electric arc of the present invention is transferred to race arc road schematic diagram by contact.

Fig. 7 is that electric arc of the present invention is about to enter the arc control device schematic diagram.

Fig. 8 is a flow field schematic diagram after the cross section starting the arc of air-blowing of the present invention system;

Fig. 9, Figure 10 and Figure 11 are respectively the three kinds of structure level schematic cross-sections in cooling duct;

Embodiment

Preferred embodiment below in conjunction with accompanying drawing and double break mouth is described in further detail structure of the present invention and operation principle.

Referring to Fig. 1-4, the preferred embodiment of the present invention is a bridge contact double break mouth circuit breaker, the arc control device 3 that comprise contact system 2 and be arranged on contact system 2 both sides, said contact system 2 comprises moving contact 7, the galvanic circle that fixed contact 8 and the electric current inlet wire 11 that is connected with fixed contact 8 and electric current outlet 12 constitute, join by static contact and insulation baffle plate 14 between two fixed contacts 8, be provided with an air-blowing system housing 1 that adapts with moving contact 7 in the upper end of moving contact 7, moving in air-blowing system housing 1, fixed contact 7,8 both sides are respectively arranged with contact insulation barrier 5, in the middle of being divided into air-blowing system housing 1, runs contact insulation barrier 5 arc zone 4 and cooling duct, both sides 6, run arc zone 4 in the middle of described and be connected, in the middle of contact insulation barrier 5, offer to make and run regional 4 openings 13 that are connected with cooling duct 6 of arc with arc control device 3.

Air-blowing of the present invention system is by running arc zone 4, and insulation barrier 5 and cooling duct 6 are formed.Wherein insulation barrier 5 is thin plates of being made by the arc ablation resistance material, is distributed in the both sides of each moving contact, is close to the side of moving contact 7, and does not hinder the divide-shut brake process of moving contact.Front region at moving contact 7 is race arc zone 4, and the upper and lower surface of running arc zone 4 is metal surface (being generally copper or silver-plated copper conductor), the race arc road 10,9 of just dynamic and static contact correspondence.The side of running arc zone 4 then is the wall of insulation barrier 5.Arc control device 3 are led in the outlet of running arc zone 4.Cooling duct 6 and race arc zone 4 are boundary with insulation barrier 5, and it is insulator wall on four sides.In the middle of insulation barrier 5, an opening 13 is set, race arc zone is connected in inside with the cooling duct, around each moving contact, form " returning " font gas connected region.

Introduce specific operation process, air-blowing principle and the advantage of the circuit breaker that the present invention relates to below in detail according to the separating brake process.

Referring to Fig. 4, when being in "on" position for the present invention, electric current passes through inlet wire 11, moving contact 7, and fixed contact 8 and outlet 12 form normal through-flow loop.Referring to Fig. 5, when being short-circuited fault, moving contact of breaker 7 moves upward under operating mechanism drives in release action back, and beginning separating brake process produces electric arc 15 this moment between dynamic/static contact.Under the situation that is provided with of Fig. 5, two electric arcs can form pressure differential, and the airflow field that the cryogenic gas around progressively driving produces in a big way be mobile respectively towards the strong air current flow of arc control device 3 directions generation of correspondence under the effect of loop and self-generated magnetic field.

Referring to Fig. 6, when being opened to certain position for contact of the present invention, electric arc is transferred to the process of running arc road 10 by moving contact 7.This moment is because short circuit current is very big, heat effect and electromagnetic force to electric arc are very strong, make " returning " font gas zones of running arc zone 4 and cooling duct 6 formation form strong convection current, high-temperature gas is to arc control device direction high velocity jet, and cryogenic gas is back between the dynamic/static contact by opening 13 by cooling duct 6 simultaneously.Fig. 8 is the flow field velocity schematic vector diagram of horizontal cross-section in the air-blowing system, and arrow is depicted as flow field velocity and distributes.Promptly formed strong self extinguishing type air-flow arc blowing function this moment, make electric arc to be transferred to by contact fast and run the arc road, and because cryogenic gas is complemented between the dynamic/static contact, make the medium recovery strength between the dynamic/static contact be able to quick raising, avoided the behind punch-through in the arc transfer process.

Referring to Fig. 7, for after contact of the present invention opens, electric arc is transferred to fully and runs the arc road, is about to enter the state of arc control device.This moment is along with the increase of short circuit current, airflow field in the connected region that race arc zone 4 and cooling duct 6 form is stronger, air-blowing effect to electric arc is also stronger, promoting electric arc 15 quickens to move to arc control device, and between dynamic/static contact, be full of the medium recovery strength height by the non-ionized cryogenic gas that was in originally in the cooling duct 6 fully.

Fig. 9, Figure 10 and Figure 11 are respectively three kinds of derivative strucure horizontal cross-section schematic diagrames of cooling duct among the present invention.In the present invention, the effect of cooling duct is that as the part of air-blowing system airflow passage, formation circulation of air flow path makes a part of electric arc self-energy can change into the air-blowing energy on the one hand.Form and after electric arc enters arc control device, have the sub-fraction hot gas and enter the cooling duct from arc control device when high velocity air circulation on the other hand, the cooling duct will produce cooling effect to it, and amplified medium recovers intensity.The cooling duct sidewall of Fig. 9 is the plane, can make air communication smooth, but sidewall surfaces is long-pending little, and cooling capacity is relatively poor relatively.The part of wherein nonisulated baffle plate 5, its material can be gas exhausted material, run into the gas that can produce the liberation that disappears when hot gas flows into such as hydrogen etc., owing to be not that electric arc is directly ablated, hot gas temperature is far below arc center's regional temperature, it is not serious relatively to ablate, and can guarantee the life-span, can reach better cooling effect simultaneously.The cooling duct sidewall of accompanying drawing 11 is rough waveform, and it is long-pending to have increased contact surface, and cooling effect is better.The cooling duct of accompanying drawing 11 is for to be provided with a cooling air chamber 16 at the insulative sidewall away from moving contact, and the cryogenic gas in the air chamber mixes with the hot gas that enters the cooling duct, thereby realizes the effect of further cooling hot gas.The use that can mutually combine of the above three kinds of method.

Claims (6)

1. A self-energized air-blown medium-voltage high-current DC fast current-limiting circuit breaker, including a contact system (2) and arc extinguishing chambers (3) arranged on both sides of the contact system (2). The head system (2) includes a moving contact (7), a static contact (8) and a conductive circuit formed by a current incoming line (11) and a current outgoing line (12) connected to the static contact (8), and is characterized in that: The two static contacts (8) are connected through the static contact insulating baffle (14), and an air blowing system housing (1 ), the dynamic and static contacts (7, 8) in the air blowing system shell (1) are respectively provided with contact insulating baffles (5), and the contact insulating baffles (5) will blow the air blowing system shell The body (1) is divided into the middle arc running area (4) and cooling channels (6) on both sides. The middle arc running area (4) is connected with the arc extinguishing chamber (3), and the contact insulation baffle (5 ) is provided with an opening (13) in the middle of which the arc running area (4) communicates with the cooling channel (6). 2. The self-energized air-blown medium-voltage high-current DC fast current-limiting circuit breaker according to claim 1, characterized in that: the inner side of the cooling channel (6) is a planar structure, and the side wall is uneven or wavy. A gas storage chamber (16) is opened on the side wall. 3. The self-energized air-blown medium-voltage high-current direct-current rapid current-limiting circuit breaker according to claim 1, characterized in that: the contact insulating baffle (5) is made of a thin plate of arc-resistant ablation material. 4. The self-energized air-blown medium-voltage high-current DC fast current-limiting circuit breaker according to claim 1, characterized in that: the front area of the moving contact (7) is the arc running area (4), and the arc running The upper and lower surfaces of the area (4) are copper or silver-plated copper conductor metal surfaces. 5. The self-energized air-blown medium-voltage high-current DC fast current-limiting circuit breaker according to claim 1, characterized in that: the gas medium around the contacts in the arc running area (4) and the cooling channel (6) It is connected and arranged in the shape of "back". 6. The self-energized air-blown medium-voltage high-current DC fast current-limiting circuit breaker according to claim 1, characterized in that: the inner surface of the cooling channel (6) is flat or uneven.

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