US1742565A

US1742565A - Circuit interrupter

Info

Publication number: US1742565A
Application number: US125778A
Authority: US
Inventors: Oliver C Traver
Original assignee: General Electric Co
Current assignee: General Electric Co
Priority date: 1926-07-29
Filing date: 1926-07-29
Publication date: 1930-01-07
Anticipated expiration: 1947-01-07
Also published as: GB275216A; DE506447C

Description

O. C. TRAVER CIRCUIT INTERRUPTER Filed July 29. 1926 Jan. 7, 1930.

Invenor Olivr C. Travel".

.H'ie Afornej.

Patented Jan. 7, 1930 vUNITED STATES PATENT oFFicE OLIVER C. TRAVER, F SCI-IENECTADY, NEW YORK, ASSIGNOR TO GENERAL ELECTRIC COMPANY, A CGRPORATION OF NEW YORK CIRCUIT INTERRUPTER Application led July 29,

This invention relates to electric circuit in# terrupters and it provides improved means for dissipating and rupturing the arc occurring upon the interruption of the circuit.

'.5 More specifically, the improvements provided by the present invention enable the arc occurring upon the interruption of the circuit to be directed along a restricted path and subdivided into a series of separate shorter arcs which are subjected to a cooling action,

voltage power1 arc may be quickly ruptured.

In a preferred embodiment of the invention the arc is confined in an arc `chute providing a narrow restricted path therefor and the subdivision of the arc and the cooling of the resulting series of smaller arcs is 'accomplished by interposing a multiplicity of metallic elements such as small copper bars in staggeredl spaced relation across the path of the arc. Thus, as the arc passes through the restricted path, preferably being driven by a magnetic blowout action, the battery of metal pieces are encountered and the arc is broken up and jumps between the adjacent metal pieces in a multiplicity of short arcs. Thecooling effect on the arc of the many metal'pieces, together with the tendency to increase the total length of the arc stream, as well as the marked increase in the critical voltage of the several' 40 short arcs in series, combine to effect a rapid interruption of the circuit.v I l The accompanying drawing'illustrates a preferred embodiment of the invention in a 'circuit interrupter having a magnetic arc' blowout chute suitable for high voltage power service. Figl is a side elevation of the circuit interrupter provided with my improved form of arc dissipating blowout chutewith a l fully reveal the construction thereof, and Fig.

1926. Serial No. 125,778.

2 is an enlarged sectional View of a portion of the arc blowout illustrated in Fig. 1. v

Referring to Fig. 1, the circuit interrupter 10 controlling the continuity ofthe high voltage power lines 11 and 12 is shown schematically, as the details thereof are not of the essence of my present invention. However, it will be seen that the interrupter 10 as shown is provided with a main current carrying contact 13, which bridges the terminal studs of the lines 11 and 12, together with the primary and secondary arcingcontacts 141 and 15.

In the preferred form illustrated, the arrangement for dissipating the arc occurring upon the opening operation of interrupter 10 comprises a pair of arc chutes 16 and 17 which preferably are disposed in alignment to form a restricted path or the arc with a gap therebetween, and each provided with a series of

magnetic blowout coils

18 and 19 respectively.'

The blowout coils preferably are arranged to be connected successively in an arc circuit as the arc lengthens, in the manner more fully described and claimed in my copending application, Serial No. 121,893, filed July 12, 1926, although other forms of'magnetic blowout coils may be em loyed if desired.

In order to su divide and cool the arc in accordance with my present invention, each of the arc chutes 16 and 17 is provided with a multiplicity of metallic elements, preferably in the' form of round copper bars indicated collectively by the numeral 20 on the drawing.A v

These round copper bars are distributed throughout the path of the arc preferably 1n tapering rows as shown with the succeeding bars opposite the openings between -the prev ceding bars. Inorderto permitrapidpenetration of the-arc among the distributed copper bars so as quickly to' cool all portions of the l ionized metal vapor and gases through which j 'the arc is conducted, the gaps between the adjacent bars preferably are'of greater length -v than the width of the bars, as clearly indi,-

Fig. 2, each of the arc chutes is composed of the

inner side walls

21 and 22, having a pluralitylof openings for receiving'the copper portion of the latter broken away to4 more' cated in the drawing. As shown in detail in 9.5

allel spaced relation by means of a plurality of spacing bars23, which are suitably secured to the walls, as by the

screws

24 and 25, and the outer walls 21a and 22EL are secured to the inner walls by the screws 24a. and 25 as indicated in the drawing. It will be evident, however, that the arc chute walls may be maintained in proper spaced relation by other suitable means.

With the arrangement shown, when the main contact 13 and the primary arcing contact 14 of the circuit interrupter 10 are open,

' the currentin the circuit including the lines 11 and 12, is "shunted through the first of the series of blowout coils 19 and the secondary arcing contacct 15. "Thus, as the secondary arcing contact-15 opens and draws an arc, the magnetic blowout action of the first inthe series ot' coils 19 serves to elongate and drive the arc upwardI along the restricted path formed by the arc chutes 16 and 17. As the arc encounters the initial coil of the series of blowout coils 18, this coil also is included'in the varc circuit and exerts a magnetic blowout action tending to further elongate the arc.

As the arc encounters the iirst row of metallic bars 20, it is subdivided into a plurality of shorter arcs whicl'rapidly jump to tlie succeeding rows of bars, and thereby further subdivide theJ arc. At thesame time, both ends of the arc are driven upwardly along the respective series of

blowout coils

18 and 19. Due to the cooling action upon theW arc stream as it is driven through the successive rows of the metal pieces by the magnetic 'blowout action, as well as the increase in critical voltage of the series of arcs, the eny ergy in the arc is rapidly dissipatedand the entire series of short arcs is iinally broken l to interrupt lthe circuit between the lines 11 and 12.

What I claim as new and desire to secure by Letters Patent of the United States is:

l. An arc chute comprising members of arc-resisting material spaced apart to|` form a restricted path for the arc and having multiple rows of metallic elements disposed across the arc path with the elements in the -successive rows disposed opposite the openings between the velements in the preceding rows for subdividing and cooling the arc.

2. An arc chute comprising walls of insulating material disposed in parallel -spaced relation to provide a restricted path for the arc and a plurality of metallic bars interposed in the arc path betweenthe walls and grouped in spaced relation to progressively subdivide and cool the arc as the arc lengthens.

3. An arc chute comprising side walls spaced apart with a multiplicity of metallic bars disposed in staggered rows between the walls transverse the path of the arc.

' 4. An arc chute comprising u'insulating walls spaced apart and each having a plurality of openings therein, a plurality of rows of metallo bars extending across the arc path delined by said walls and having their ends supported in said openings, and insulating means covering the said openings at the ends of said bars.

5. -An are chute comprising insulating walls spaced apart in parallel relation and having a plurality of registering openings therein, a,

plurality of metallic bars extending vtransverse the arc path defined by said wallsA in a series of staggered -rows and having their ends supported in said openings, and yinsulating means covering the said openings at the ends of said bars.

6. A magnetic blowout for interrupting an electric circuit comprising an are chute formed of insulating walls spaced apart and having a inultiplicity'of metallic bars eXtending in staggered relation therebetween with the gaps between the adjacent bars of greater length than the width of the bars, and a magnetic blowout coil interposed between said walls and connected to set up a magnetic iield for driving the arc through said gaps to engage with the succeeding bars.

7. A magnetic arc blowout for interrupting an electric circuit comprising apair of arc chutes disposed in alignment to form' a restricted 'path for the arc with a gap between the adjacent edges of the chutes, a plurality of metallic barsdispo'sed in staggered relation in each ofI said arc chutes, andfa plurality of blowout coils in each arc chute and connected to be successively inserted in the arc circuit for setting up a magnetic iield to drive the arc between said metallic bars.

8. A magnetic blowout for interrupting an electric circuit comprising an arc chute and a series of blowout coils havin terminals 'spaced apart in the path taken by the arc as it lengthens and a plurality of metallic bars interposed progressively in the arc path to subdivide and cool the arc as it lengthens.

9. An arc chute having .a plurality of metallic arcing electrodes distributed in staggered relation throughout the are path with