CA1251818A - High voltage air-blast circuit breaker - Google Patents

Abstract

High-voltage arc blowing circuit breaker comprising, arranged in an insulating or metallic enclosure at least one device for cutting a phase of a polyphase current. The cut-off device includes a first fixed assembly with fixed main contacts and fixed spark arrester contacts, and a second mobile assembly with main mobiles and movable spark arrester contacts. The fixed assembly comprises a first volume in which the pressure increases under the effect of the cutting arc, the gas of this volume expanding through a first nozzle to blow the arc at the moment of the zero current crossing at cut. The second mobile assembly comprises a second volume in which the gas is compressed by a piston at the start of the circuit breaker opening phase and directed onto the arc by a second nozzle in the subsequent phases. The nozzles are arranged so as to prevent any direct passage of the blowing gases towards the volume comprised between said assemblies and said envelope. The circuit-breaker finds application in high-voltage arc-blown circuit-breakers.

Description

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~ - 1 The present invention relates to a circuit breaker high voltage.
There is a high voltage circuit breaker with blowing pneumati ~ ue type SF6 ~ ui has a first volume in which the pressure increases by heating by the cutting arc, the gas of this volume expanding to blow the arc at the time of the current through zero current at cut and a second volume in which the gas is compressed by a piston at the start of the circuit breaker opening phase and directed on the arc in the later phases; the disjoint-tor has main stationary contacts, contacts fixed spark arrester, a main moving contact and a movable spark arrester contact, the arc extending during opening of the circuit breaker, between the spark arrester contacts.
The first volume and the second volume are arranged on either side of the arc zone.
The first volume can be delimited by a tube, coaxial with fixed spark arrester contacts and an iso-lante, the second volume being delimited by a first tube constituting the main moving contact and a second coaxial tube to the latter, a piston ~ ixe forming this volume at one end. The nozzle is carried by a tube.
In addition, Ull third tube, coaxial with the first and second tubes, and constituting the movable barrier contact sparks, defines, with the second tube, an annular volume in which a fourth tube terminated by a second nozzle insulator can move under the action of a pushed piston by one end of a spring, the other end of which comes on a stop secured to the movable contacts, the third and the fourth tube defining a passage for the gas of the second volume, the latter passing through ori ~ ices of the second and fourth tube.
When the circuit breaker reaches the last phase of the opening, ~ the insulating nozzles separate, thus creating ~ 1 ~

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`, an annular opening through which escapes to the volume some of the hot gases. This volume is delimited by main contacts and the porcelain constituting the envelope of the circuit breaker.
When making a three-phase circuit breaker with three interrupting chambers arranged in the same enclosure, it is not desirable that some of the hot gases escape from one room to the other An object of the present invention is to provide a circuit breaker of the aforementioned type in which the hot gases do not can escape only through the interior volumes at the tacts.
Another object of the present invention is to realize be a circuit breaker of simplified construction.
The subject of the invention is a high circuit breaker arc blown gas voltage comprising, disposed in a insulating or metallic envelope, at least one interruption of a phase of a polyphase current, said device switch comprising a first fixed assembly with con-fixed main tacts and fixed spark arrester contacts, and a second mobile assembly with main contacts mobile and mobile spark arrester contacts, the assembly fixed comprising a first volume in which the pressure increases under the effect of the breaking arc, the gas of this volume relaxing through a first nozzle to blow the arc when the current to be cut crosses zero, the second mobile assembly comprising a second volume in which the gas is compressed by a piston at the start of the opening phase circuit breaker and directed on the arc by a second nozzle in subsequent phases, characterized in that the nozzles are arranged to prohibit any direct passay of blowing gas to the volume between said assemblies bles and ladi.te envelope, these nozzles ~ ~

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exhibiting interpenetrating, moving parts relative to each other during the opening phase until the end of the shutdown period and remaining in contact in open position of the circuit breaker.
For example, said interpenetrating parts may be a tubular groove carried by one of the nozzles and a tube extending the other nozzle.
The invention will be clearly understood from the description below of two embodiments of the invention, in reference to the attached drawing in which:
- Figure l is a partial axial sectional view of a circuit breaker according to the prior art - Figures 2A and 2B show, in section through axial tial, a circuit breaker according to a first mode of realization, respectively in closed position and in position intermediate at the end of the arc breaking period - Figures 3A and 3B show, in section through axial tial a circuit breaker according to a second embodiment position, respectively in closed position and in position opened.
Figure 1 shows a high voltage circuit breaker with pneumatic self-blowing of the SF6 type which includes a first volume 27 in which the pressure increases by heating by the cut-off arc, the gas in this volume relaxing to blow out the arc at zero crossing of the current to be cut and a second volume 37 in which the gas is compressed by a piston 39 at the start of the phase opening of the circuit breaker and directed on the arc in the subsequent phases; the circuit breaker has contacts main fixed 21, fixed spark arrester contacts 24 and 22B a main mobile contact 31 and a mobile contact spark arrester 34B, the arc extending during opening of the circuit breaker, between the spark arrester contacts.
The first volume 27 and the second volume 37 are "~.

S ~ l8 ~ 3 - 3a -arranged on either side of the arc zone.
In the embodiment described in the request above and shown in Figure 1 of this request, the first volume 27 is delimited by a tube 22A, 22B, coaxial with contacts ~ spark arrester ixes 24 and a insulating nozzle 26, the second volume 37 being delimited by a first tube 36 constituting the main moving contact and a second tube 35 coaxial with the latter, a fixed piston 39 forming this volume at one end. Nozzle 26 is worn by tube 25 ~
In addition, a third tube 34, 34A, 34B, coaxial to the first and second tubes 35, 36 and constituting the contact mobile spark arrester, delimits, with the second tube 35, an annular volume 38 in which a fourth tube 41 terminated by a second insulating nozzle 42 can be moved under the action of a piston 43 pushed by one end of a spring 44 whose other end comes on a solid stop mobile contacts, the third and the fourth tube defining a passage for the gas of the second volume, this the latter passing through orifices 40, 46 of the second and fourth third tube.
The arrows Fl and F2 represent the directions gas jets when blowing the arc. The reference 60 designates the opening delimited by the nozzle 26 and the contact 22A, 22B.
When the circuit breaker reaches the last phase of the opening, the nozzles 26 and 42 separate, thus creating an annular opening through which escapes to the volume 71 part of the hot gases.
Volume 71 is delimited by the main contacts heads 21 and 36 and porcelain 70 constituting the envelope of the circuit breaker.
In Figures 2A and 2B, which represent in partial axial section, a circuit breaker according to a first mode `` '' ~ ' S ~ IL8 ~ 3 - 3b -for carrying out the invention, the elements common to Figures 1, 2A and 2B have been given the same reference numbers.
Is shown in the envelope 70 (insulating or metallic), a half interrupting chamber; we must remember that it contains three identical chambers arranged according to an equilateral triangle centered on the axis of the envelope 70.
We distinguish, as in Figure 1 the whole fixed comprising the fixed main contacts 21, the contacts fixed spark arrester 24 and the tube 22A, terminated by a tion 22 B made of material resistant to the effects of an electric arc.
As in Figure 1, the tube 22A delimits, with a tube 25 carrying a nozzle 26A, a volume 27 which plays the r81e thermal volume.
On the side of the moving part we find, as in lS in Figure 1, the movable main contact 31 carried by a tube 35 and a second tube 35, pierced with orifices 40 and delimiting with a fixed piston 39, a compression volume 37.

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8 ~ 3 The crew ~ obile also includes a third tube 34, completed by a portion ~ 4A carrying the movable spark arrester contacts 34B.
A fourth tube 41, which can have a certain degree of movement compared to sy ~ mobile theme thanks to a pi ~ tone 43 couli ~ sant dan ~ lle ~ -5 annular space delimited by the tube ~ 34 and 35 and pushed by a spring 44, carries an iqolante nozzle 42A cooperating with the nozzle 26A as we will see it further.
The tube 41 carries orifices 46 which, during the cut-off period of the di_ ~ uncteur, come opposite 3 orifices 40 (~ igure 2B) for p ~ rmet-10tre with compressed gas from volume 3 ~ from ~ q'escape through volume 38 and oriPice 50.
45 has been referenced the stop integral with the tube 35 ~ ur which is based on res ~ ort 44.
Finally, denote by 71 the volume between the set of 15cut and envelope 70, par 17 and 18 volumes re ~ pectively deli-mites inside the tubes 22A-22B and 34-34A-34B.
According to a characteristic of this mode of realization of the invention, tion, bu ~ e 25A e ~ t ~ united with an annular groove 26C in which comes ~ 'engage a tubular end portion 42C of bu ~ e 42A.
20 ~ n position to close a stop 42B of the nozzle 42A comes 9 ~ apply ~ ur part 26B of the nozzle 26A. The tubular portion 42C
semi ~ mobile nozzle e ~ t fully engaged danq la 3aignée de la bu ~ e 26A.
There is no direct communication in the contact area of the 25di ~ uncteur, between volume 71 and le_ volume ~ inside ~ O
During the ~ opening of the circuit breaker, the ~ main contacts ~ e ~ sparse, well ~ an arc ~ aillit between the contacts ~ spark arrester 24-22B
and 34B.
During movement, the volume 37 ~ az is compressed while 30the gas of volume 27 q'échauf ~ e.
During part of the yard ~ e of the moving equipment, bu ~ e 42A
reqte applied against bu ~ e 26A thanks to reqsort 4Y which ~ e relaxes gradually ; in ~ in stroke of the reqsort, the end of the contact mobile 34B arrives at the bent part 42D of the bu ~ e 42A and 35dé ~ init aveo it an annular orifice 50 allowing the gas comp ~ imé du .
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volume 37 of ~ enir 30u ~ ler arc.
In the course of the last phase of the movement of the moving assembly, the nozzle 42A is in turn entered ~ born, the part 42C sliding in the tapped 26C.
The depth of the groove 26C and the tubular end 4 ~ C of the semi-mobile nozzle 30nt choi ~ is such ma ~ ière, that at the end of the period cut, (~ igure 2B), the end 42C remains still engaged in the bleeding. In this way, no direct communication exists between the contaots area and volume 71. The blowing gases from the volumes 27 and 37 are evacuated3 by interior volumes 17 and 18.
This avoids, in the case of a dis ~ three-phase unctor three cut-off chambers in the same envelope, to send hot ga ~ in the space between phases. At the end of the opening stroke, the tubular end laire 42C leaves the ~ aignee 26C to ensure better hold dielectric between contacts.
The ~ igure ~ 3A and 3B represent, respectively in position closed and in open intermediate position, a dis ~ unctor ~ elon a q second embodiment of the invention. The 3 elements common to Pigures 1, 3A and 3B have been given the same reference numbers.
We di ~ tingue as before for the crew ~ ixe:
- the main contacts fixed - the tube 25 carrying the nozzle which is this time referenced 126 - the tube 22A, 22 ~, delimiting, with the tube 25, the thermal volume that 27 - the spark arrester contacts 24 The mobile part is a little different from that of Figures 1, 2A
and 2B ~
It comprises a tube 36 whose end carries the main contack cipal mobile 31, a tube 35 defining with a piston 39 a volu ~ e of compression 37 and a tube 34A fitted with the contacts 34B
those.
The part ~ emi-mobile preoedent is ~ upprimée and replaced by a tubular portion 141, integral with ~ part ~ 36, 35 and 34 ek delimi-both with the tube 34 an annular volume 138.
Ports 40 of tube 35 and 146 of tube 141, located opposite ; :
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put together the volumes 37 and 138.
The nozzle 126 is extended by a tubular portion 126A which comes engage inside the tubular portion 141 ~
The length of the portion 126A e ~ t such that in the closed position of the di ~ Junctor (Figure 3A) it closes the 3 ori ~ ices 146, and that in position open at the end of the shutdown period, (Figure 3B) it still remains in contact with the portion 141 so as to prohibit any pa ~ sage direot blowing gases to the e ~ pace 71.
The ~ onctction e ~ t similar to that described above.
Note that the nozzle 126 ~ 126A pos ~ edes a first portion concave 126C for radially directing the gases i ~ sus of volume 27 and a second concave portion 126D to also direct the gases radially is ~ us of the compression volume.

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Claims (3)

The achievements of the invention about of which an exclusive property or privilege right is claimed, are defined as follows: 1. High voltage gas gas circuit breaker arc blowing comprising, disposed in an envelope insulating or metallic, at least one breaking device of a phase of a polyphase current, said device breaking comprising a first fixed assembly with fixed main contacts and barrier contacts fixed sparks, and a second mobile assembly with mobile main contacts and barrier contacts mobile sparks, the fixed assembly comprising a first volume in which the pressure increases under the effect of the cutting arc, the gas in this volume relaxing through a first nozzle to blow the arc at the time of zero current crossing to cut, the second mobile assembly comprising a second volume in which the gas is compressed by a piston at the start of the circuit breaker opening phase and directed to the arc by a second nozzle in the subsequent phases, device in which:
- the nozzles are arranged so as to prohibit any direct passage of blowing gases towards a volume comprised between said sets and said envelope, - said nozzles have parts interpenetrating, moving one with respect to the other during the opening phase until the end of cut-off period and remaining in position circuit breaker opening. 2. Circuit breaker according to claim 1, wherein said interpenetrating parts are a tubular groove carried by one of the nozzles and a tube extending the other nozzle. 3. Circuit breaker according to claim 1, in which one of the nozzles is extended by a tubular part engaging in a tube carried by the assembly of which the other nozzle is a part.