US2214471A - Circuit breaker - Google Patents

Circuit breaker Download PDF

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Publication number
US2214471A
US2214471A US216708A US21670838A US2214471A US 2214471 A US2214471 A US 2214471A US 216708 A US216708 A US 216708A US 21670838 A US21670838 A US 21670838A US 2214471 A US2214471 A US 2214471A
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United States
Prior art keywords
contact
contacts
main
auxiliary
current
Prior art date
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Expired - Lifetime
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US216708A
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English (en)
Inventor
Leon R Ludwig
Merl E Horn
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CBS Corp
Original Assignee
Westinghouse Electric and Manufacturing Co
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Filing date
Publication date
Priority to NL62088D priority Critical patent/NL62088C/xx
Application filed by Westinghouse Electric and Manufacturing Co filed Critical Westinghouse Electric and Manufacturing Co
Priority to US216708A priority patent/US2214471A/en
Priority to FR855804D priority patent/FR855804A/fr
Priority to CH214010D priority patent/CH214010A/fr
Priority to DES137669D priority patent/DE759249C/de
Application granted granted Critical
Publication of US2214471A publication Critical patent/US2214471A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/30Means for extinguishing or preventing arc between current-carrying parts
    • H01H9/38Auxiliary contacts on to which the arc is transferred from the main contacts
    • H01H9/383Arcing contact pivots relative to the movable contact assembly
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23BTURNING; BORING
    • B23B11/00Automatic or semi-automatic turning-machines incorporating equipment for performing other working procedures, e.g. slotting, milling, rolling
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H9/00Details of switching devices, not covered by groups H01H1/00 - H01H7/00
    • H01H9/20Interlocking, locking, or latching mechanisms
    • H01H9/28Interlocking, locking, or latching mechanisms for locking switch parts by a key or equivalent removable member

Definitions

  • the invention relates to circuit breakers in general and more particularly to contact systems for air circuit breakers.
  • auxiliary sets of contacts which are designed to bypass a large portion of the current for a short interval of time during circuit interruption for the purpose of minimizing burning or pitting of the main contacts.
  • ⁇ It has been the usual practice to connect the auxiliary contacts to the main contact either by individual resilient conductors on which the contacts are y mounted, or by individual exible shunts.- The resistance and reactance of these connections are relatively high with the result that a considerable voltage drop exists across the main contacts during interruption of heavy magnitude currents. This produces undesirable arcing between the main contacts, thus o'setting to some extent the eectiveness of the auxiliary contacts.
  • een object of the rpresent invention is the provision of a circuit breaker embodying an improved contact system which obviates the abovementioned electrical andmechanical diiiiculties, and which is simple and less expensive to manufacture than the contact systems of the prior art devices.
  • Another object of the invention is the provision of a circuit breaker embodying amain (Cl. 20D-146) bridging contact and auxiliary contacts, in which the bridging contact is biased toward the stationary contacts by a comparatively light force which permits it to lift oi of the stationary contacts at a predetermined value of'current above the maximum rated current of the breaker, but which is low enough that any arcs which may be drawn between the bridging contact and the stationary contacts are ⁇ of such low magnitude that they will not burn or pit the contacts.
  • amain Cl. 20D-1466
  • bridging contact is biased toward the stationary contacts by a comparatively light force which permits it to lift oi of the stationary contacts at a predetermined value of'current above the maximum rated current of the breaker, but which is low enough that any arcs which may be drawn between the bridging contact and the stationary contacts are ⁇ of such low magnitude that they will not burn or pit the contacts.
  • Another object of the invention is the provision of a circuit breaker-with an improved contact system which provides a minimum voltage drop between the main contacts when the current is transferred to the auxiliary contacts, and which prevents arcing between the main contacts.
  • Another object of the invention is the provision of an improved contact system for a circuit breaker which eliminates the necessity of providing individual exible shunts or resilient conductors for each of the auxiliary contacts.
  • Another object of the invention is the provision oi an/improved Contact system for a circuit breaker which utilizes a common flexible shunt for connecting the auxiliary contacts to the terminals of the breaker.
  • Another object of the invention is the provision of a'n improved contact system for a circuit breaker in which a single flexible shunt conductor connects all of the auxiliary contacts to their corresponding terminals and isV arranged to eiectively neutralize the magnetic forces tending to blow the auxiliary contacts apart.
  • Another object of the invention is the provision of an improved contact system for a circuit breaker in which the flexible shunt connections are arranged to maintain the bridging contact separated from the stationary contacts when the current exceeds a predetermined value and which at the same time prevents the magnetic force from blowing the auxiliary contacts apart until after the main contacts'are separated a predetermined safe distance.
  • Another object. of the invention is the provision of an improved contact system for a circuit breaker embodying rigid main and intermediate contacts which are mounted in such a manner as to provide the required contact pressure, and
  • Fig. 4 is a view similar to Fig. 3 showing the relative positions of the parts at a later stage in the opening operation when one pair of the auxiliary contacts have just separated;
  • Fig. 5 is a view similar to Fig. 3 showing the contact means in the full open position:
  • Fig. 6 is a view similarv to Fig. 3 showing the switch member in closed position and the bridging contact lifted from the stationary contacts by the magnetic force of the current;
  • Fig. 'I is a fragmentary front elevational view of the stationary contact means.
  • Fig. 8 is a longitudinal sectional view taken through the contact means.
  • the reference numeral designates a base of insulating material which vsupports the various parts of the circuit breaker.
  • 43 and I5 are mounted in spaced relation on the base by means of a plurality of bolts I1, and each of the terminal membershas a plurality of blades I9 for connlfting the breaker to an external electrical circ t. o
  • the upper terminal I3 has a contact block 2
  • a contact block 23 also of rigid conducting material is electrically connected to the lower terminal I5 through the winding of the trip coil
  • and 23 form the main stationary contacts of the circuit breaker, and their adjacent edges are beveled and have a pair of main contact tips 25 and 21 secured thereon.
  • the contact tips 25 and 21 are prefer ably formed of silver or an alloy of silver and are secured to the beveled edges of the blocks 2
  • and 23, also includes auxiliary contact means comprising a platform 29d-rigid conducting material on which is mounted an intermediate contact 3
  • the arcing contact 33. which is mounted on the upper end of the platform 29, is-preferably formed of a suitable conducting material which resists deterioration by electric arcs, and this Contact is provided with an arcing horn 35.-v
  • 'I'he auxiliary contact platform 29, which has side walls 31 and an end wall 39 (Figs. 'T and 8), is mounted for limited bodily and tilting move-.- ment relative to the base II toward the movable contact means of the breaker by means of a transverse pin 4
  • 'I'he platform 29 is biased away from the base I I toward the movable contact means of the breaker by three springs 41, 49'and 5
  • encircles a ,guide stud 53 mounted on the base, and its outer end engages the platform 29 beneath the arcing contact 33.
  • a pair of ears 6I extending from the side walls 31 adjacent the upper end of the platform are adapted to engage extensions 63 of the guide brackets 45 to limit movement of the upper end -of the, platform 29 toward the movabl contact means.
  • An insulating bale 52 isrmounted on the Vcontact block 2
  • the movable contact means of the circuit breaker comprises a channel-shaped contact arm 65 of conducting material, which is rigidly secured f to a pivoted switch member 61 by means of a plurality of screws 39.
  • the contactarm car- 'ries a main contact bridging member 1I for bridging: the main contacts 2
  • is formed of rigid conducting material, such as copper or an alloy of copper, and is loosely mounted for limited movement relative to the contact arm 65 toward and away from the main contacts 2
  • the free ends of the studs 15 have a pair of nuts 11 mounted thereon for limiting movement of the bridging member 1
  • a pair of coil springs 19 encircle the studs'15and are disposed between the contact arm 55 andthe bridging member 1
  • the ends of the bridging member 1I are beveled and have a pair oi contact tips 8
  • the auxiliary contact member 13 isformed of rigid conducting material, preferably copper, and is secured to the upper end of the contact arm 65 by a pair of bolts 83.
  • the contact member 13 has an intermediate contact 85 and an arcing contact 81 secured thereto either by brazing or by mechanical means, for engaging the intermediate and arcing contacts 3
  • 'Ihe movable arcing contact 81 is preferably formed of a suitable arc resisting material similar to that of the arcing contact 33, and is provided with an arcing horn 39.
  • has its upper end clamped between the auxiliary contact member 13 and the contact arm 65 by one of the bolts 93, and its lower end is secured to a portion of the lower main stationary contact 23 by means of bolts 93. 'I'he intermediate portion of the conductor 9
  • may be split into two parallel bridging members and the common flexible shunt 9
  • the provision oi two parallel bridging members allows them to be ventilated and cooled so that they can carry larger amounts of current and still keep within the permissible temperature rise.
  • 'I'he switch member 61 has a yoke-shaped lower end which is pivotally mounted on the side walls of a main frame 91 by means of a pivot pin 99.
  • the switch member is movable about its pivot axis to open and closed circuit positions to open and close the contact means of the breaker by means of an operating mechanism indicated generally at
  • may be of any suitable type but is preferably similar to the mechanism which is fully described in the copending application of Walter M. Austin, Serial No. 118,588, led December 31, 1936, and assigned to the assignee of the present invention, now Patent No. 2,177,014, issued October 24, 1939.
  • the mechanism is supported by the frame 91, and comprises in general an actuating f lever
  • 03 is normally and releasably connected to the operating member
  • 09 is adapted to be releasably held in closed circuit position by means of a latch I I9 which releasably engages the roller
  • the trip device comprises a pivoted trip'member
  • the trip lever is operable either manually, or by a tripping electromagnet
  • 'I'he tripping electro ⁇ magnet has anenergizing winding
  • the switch member 61 is biased in a clockwise direction toward open circuit position by a pair of opening springs
  • 25 move the switch ymember 91 and the actuating lever
  • 03 moves to open circuit position, it effects release of the latch
  • 09 To close. the circuit breaker, the operating member
  • 09 is then moved in a clockwise direction to the closed position shown to eiiect movement of the switch member 91 in a counter-clockwise direction to closed cir- cuit position., When the operating lever
  • the switch member 61 i when the switch member 61 i is in closed circuit position, the bridging member 1
  • the intermediate and arcing contacts 90 and 81 of the auxiliary contact member 13 also engage the intermediate and arcing contacts 3
  • cause the auxiliary contact platform 29 to move outwardly from the base and follow the auxiliary contact member 13 to maintain the intermediate' and arcing contacts 3
  • of the contact platform 29 are so disposed thatthey permit the upper end of the platform 29 to continue to move outwardly from the base after the pin 4
  • causes thecontact platform 29 lto rotate'in a clockwise direction about the pin 4
  • the low resistance and inductance of the auxiliary paths forthe current reduces the difference of potential between the bridging member -1
  • the mounting arrangement of the auxiliary contact platform and its biasing m'eans causes the intermediate and arcing contacts to remain in engagement until the bridging member has been separated a predetermined safe distance from the main stationary contacts, and also causes the intermediate contacts to separate before separation of the arcing contacts so that all arcing takes place between the arcing contacts of the breaker.
  • the biasing springs 19 for the bridging member are made comparatively weak so that the force exerted thereby on ⁇ the bridgingmember 1
  • a breaker having a rating of 600 amperes inservice might easily be subjected to short circuit or surge currents having a peak value of about 100,000 amperes.
  • short circuit or surge currents having a peak value of about 100,000 amperes.
  • the arcs drawn between the bridging member and the main contacts would be of such high magnitude in spite'of the intermediate and arcing contacts being in shunt therewith that thearcs would burn or pit the main contact surfaces.
  • the bridging member biasing springs 19 would be selected to have such a strength that they would permit the magnetic force of the current to separate the bridging member from the stationary main contacts at approximately 10,000 amperes or approximately six- .teen times normal rated current. Any arcs drawn between the bridging member and the main ,contacts at this value of current would be o1' such low magnitude that they would not materially burn or pit the main contact surfaces.
  • value of current at which the springs are designed to permit lifting or blowing open of the bridging' member may be higher or lower than the approximate valuen given in the above example.
  • the lower limit ofthe current at which the bridging member is permitted to blow open must be above the normal current rating of the breaker and is limited bythe fact that the biasing springs must have sufficient strength to produce the required 1normal contact pressure so as to keep within the permissible temperature rise. 'Ihe higher the value of current at which the bridging member is allowed to blow open the greater will be the ⁇ amount of burning or pitting of the main contact surface.
  • biasing springs for the main bridging member which consequently determines the value of curthe current flowing rent at which the bridging member will be blown open, these two factors must be considered, and the springs should be selected of such strength that the value of current which will cause blowing open of the bridging member will be at some value intermediate the lower and upper permissible limits.
  • This value of current may range from several times the normal current rating of the breaker up to a fraction of the maximum interrupting capacity of the breaker. From ten to twenty times the normal current rating has been found satisfactory. I
  • the bridging member H is separated -irom the main contacts 2
  • the looped shape of the flexible conductor 51 causes the current which flows through the conductor to produce a magnetic force whichl effectively neutralizes the magnetic forces tending to blow the auxiliary contacts apart, and assists the biasing springs to maintain the auxiliary contacts in engagement until the bridging member has been separatedapredetermined distance from the main contacts by opening movement of the switch member 61, while the bridging member 1I is separated from the main contacts by the magnetic force of the current.
  • 21 is mounted on the upper portion of the base Afor extinguishing the arcs drawn between the arcing contacts 81 and 33 during interruption of the circuit.
  • the arc extinguishing structure 121 may be of any suitable type, but is preferably of the type fully described in the copending application of L. R. Ludwig, Serial No. 216,884, Bled July 1, 1938, and assigned to the assignee of the present invention.
  • a base comprising a main contact of rigid conducting material and a member of rigid conducting material of high electrical conductivity electrically connected to said main contact and .aving spaced intermediate and arcing contacts
  • movable switch means for opening and closing the circuit comprising a movable main contact ofrigid conducting material for engaging the main contact on said base, a movable member of rigid conducting material electrically connected to said movable main contact and having spaced intermediate and arcing contacts for engaging the intermediate and arcing contacts on said base, and means for causing said main contacts to separate a predetermined distance before said intermediate and arcing contacts separate and for causing said arcing contacts to separate after said intermediate contacts have separated during each circuit opening operation of said switch means, said intermediate and arcing contacts being spaced a suiclent distance apart to prevent restriking of an arc between said intermediate contacts. 5
  • each of said contact means comprising a main contact of rigid conducting material and a member of rigid conducting material of w high electrical conductivity electrically connected to said main contact and having a Vplurality of spaced metal contacts rigid with said member forming auxiliary contacts, a movable switch member for opening and closing said contact means, and means for causing said main contacts to separate a predetermined distance before said auxiliary contacts separate and for causing said auxiliary contacts to separate in a predetermined order during a circuit opening operation.
  • each of said contact means comprising a main contact member of rigid conducting material, a member of rigid conducting material of high electrical conductivity ⁇ electrically connected to said main contact member and having a plurality of spaced metal contact portions rigid with said member forming auxiliary metal contacts, and a support for said members; one of said rigid conducting members and one of said main contactmembers being mounted for limited movement on its support and biased toward its cooperating member of the other contact means.
  • each of said contact means comprising a main contact of rigid conducting material, a member of rigid conducting material having a plurality of contact portions forming auxiliary contacts, and a flexible shunt conductor for electrically connecting said rigid conducting member to said main contact; means mounting and biasing one of said rigid conducting members to cause said auxiliary contacts to separate in a predetermined order after 'said main contacts have separated a predetermined distance during a circuit opening operation of the breaker, and for causing said rigid member and its auxiliary contacts to automatically self-align with the auxiliary contacts of the other contact means when said auxiliary contacts are engaged.
  • stationary contact means comprising a main contact and a member .of rigid conducting material having a plurality of contact portions rigid with said member forming intermediate and arcing contacts, a movable switch member for opening and closing the circuit, a main contact carried by said switch member for engaging the stationary main contact, a member of rigid conducting material carried by said switch member having contact portions rigid with said member forming intermediate and arcing contacts for engaging the intermediate and ment of said switch member, and a exible shunt conductor connecting said rigid conducting member of said stationary contact means to said stationary main contact.
  • a circuit breaker relatively movable contact means for opening and closing the circuit, one of said contact means-comprising a main contact, an auxiliary contact platform of rigid conducting material mounted on a support for limited movement relative to the support toward and away from the other contact means, auxiliary contacts on said platform, spring means biasing said platform toward said other contact means, a bowed flexible shunt conductor disposed in back of said platform connecting said platform to said main contact, said platform having sidewalls and an end wall forming an enclosure for said shunt to protect said shunt from arcs drawn between said contact means.
  • relatively movable main and auxiliary contacts means for opening and closing said contacts, one of said main contacts being mounted for limited movement relative to its support toward and away from the other main contact and being biased toward said other main contact with a predetermined force, means forming a normal path for the current through said main contacts, and van auxiliary path for the current through said auxiliary contacts, the magnetic force produced by the currentin owing through said paths causing said one main contact to separate from said other main contact and to practicallyain separated therefrom when said current exceeds a predetermined value in excess of the maximum normal current rating of the breaker, said predetermined value of current being low enough that any arcs that may be drawn between said rnain contacts will not materially burn or pit the main contacts.
  • relatively movable main and auxiliary contacts means for opening and closing said contacts, one of said main contacts being mounted for limited movement toward and away from the other main contact when the breaker is closed and being biased toward said other main contact, means for causing said one main contact to separate and remain separated from said other main contact when the current jowing through said breaker exceeds a predetermined value in excess of the maximum current rating of said breaker, said predetermined value of current being low enough that any arcs drawn between said main contacts will not damage said main contacts.
  • a circuit breaker relatively movable main and auxiliary contacts, means for opening and Aclosing said contacts, one of said main contacts being mounted for limited movementtoward and away from the other main contact when the breaker is closed and being biased toward said other main contact, means for causing said 'one main'contact to separate and remain separated from said other main contact when the current flowing through said breaker exceeds a prede-'- termined value in excess of the maximum current rating of said breaker, said predetermined value of current being low enough that any arcs.
  • relatively movable maincontacts relatively movable auxiliary contacts connected to said main contacts for shuntcontact from the other when the current owing g through said breaker exceeds a predetermined valuev in excess ⁇ of the current rating of said breaker and which maintain said main contact separated at all values of current in excess of said predetermined value, said predetermined value of current being low enough that any arcs drawn between said main contacts will not niaterially damage the contacts.
  • a circuit breaker relatively movable main contacts, relatively movable auxiliary contacts connected to said main contacts for shunting the current around said main contacts during opening of said main contacts until said main contacts have separated a predetermined distance, .means for opening and closing said contacts in a predetermined order, one of said main contacts being mounted for limited movement toward and away from the other main contact when the breaker is closed and being biased toward said other main contact, 4:and means for producing magnetic forces which separate said one main contact from said other main contact and maintain said contacts separated when the current owing through said breaker exceeds a soV ⁇ .predetermined value in excess of the current rating of said breaker and which maintain said auxiliary contacts in engagement until said main contacts have been separated a predetermined distance by an opening operation of said breaker, said predetermined value of current being low enough that any arcs which may be drawn between said main contacts will not materially damage said main contacts.
  • a circuit breaker having a base and a pair of spaced terminals, a pair of stationary contacts on said base electrically connected to said terminals, an auxiliary contact on said base electrically connected toy one of said terminals, a movable switch member for opening and closing the circuit, said switch member having a bridging member for bridging said stationary contacts and an auxiliary contact for engaging the auxiliary contact on said base, said bridging member being mounted on said switch member for limited movement relative thereto toward and away from said stationary contacts, a spring for biasing said bridging member toward said stationary contacts, a exible shunt conductor connecting the auxiliary contact of the switch member and the vbridging member to the opposite terminal of.
  • said spring permitting the magnetic force of the current flowing through said stationary contacts and bridging member to separate said bridging member from said sta- -tionary contacts when the current exceeds a predetermined vaiue, and the magnetic force produced by the, current owing through said flexible shunt maintaining said bridging member separated from said stationary contacts at all values of current in excess of said predeter- 1 mined value, said predetermined value of current amarsi 7 between said bridging member and said stationary contacts will not materially damage said contacts and said member.
  • stationary contact means comprising a main contact and an auxiliary contact, a movable switch member for opening and closing the circuit, said switch member having main andauxiliary contacts for engaging the main and auxiliary contacts of said stationary contact means, one of said main conf tacts being mounted for limited movement toward and away from the other main contact when the breaker is closed, a spring for biasing said one main contact toward said other contact with a predetermined force which permits said contact to separate from the other main contact when the current flowing through said breaker exceeds a predetermined value in excess oi the normal current rating of the breaker, said predetermined value being low enough that any arcs drawn between said main contacts will not materially damage the main contacts, a flexible shunt conductor connecting said one main movable contact and its auxiliary contact to one terminal of said breaker, said shunt actinglto main- ⁇ tain said one movable contact separated from said other main contact at all values of current in excess of said predetermined value, and means for causing said auxiliary contacts to remain engaged until
  • stationary contact means including a pair of main contacts and an aurdiiary contact, a 'movable contact arm for opening and closing the circuit, a bridging member carried by said arm for bridging said main contacts and an auxiliary contact carried by said arm ier engaging the auxiliary contact of said stationary contact means, said bridging member being mounted for movement reiative to said contact arm toward and 'away from said stationary contact means, spring means ior biasing said bridging member toward said main contacts with a predetermined iorce, and a demble shunt conductor connecting said allary contact on said contact arm and said bridging :member to one terminal ci said breakere 1 i5.
  • stationary contact means' including a pair of stationary main contacts and an auxiliary contact.
  • a movable contact arm for opening and closing the circuit
  • a bridging member carried by said arm and movable a limited amount relative thereto toward and away from said stationary contacts
  • spring means for biasing said bridging member toward said stationary contacts with a predetermined force
  • an auxiliary contact carried by said arm for engaging the auxiliary contact of said stationary *contact means
  • a flexible shunt conductor connectingthe auxiliary contact of said contact arm and said bridging member to one terminal of said breaker, said shunt being secured to said bridging member at at least two points intermediate the ends of said bridging member.
  • stationary contact means including a pair of spaced main contacts and a member of rigid conducting material having a plurality of contact portions forming auxiliary contacts, a movable contact arm for opening and closing the circuit, a main contact bridging member mounted on said arm for limited movement relative to said arm toward and away from said main contacts, spring means biasing said bridging member toward said main contacts, a member of rigid conducting material mounted on said arm having a plurality of contact portions forming auxiliary contacts for engaging the auxiliary contacts of said stationary contact means, a common exible shunt conductor connecting the rigid member of said contact arm and said bridging member to one of said main contacts, a second flexible shunt conductor connecting the rigid member of said stationary contact means to the other of said main contacts, means mounting the rigid member of said stationary contact means for limited movement toward the rigid member ci said contact arm and for biasing said rigid member toward the rigid member of said contact arm to cause said auxiliary contacts to separate in a predetermined order and only after said bridging member has separated a pre
  • stationary contact means comprising a main contact and a member oi rigid conducting material having a plurality of spaced contacts rigid withsaid member forming auxiliary contacts, a movable contact means having a main contact and a plurality of auxiliary contacts for engaging the contacts of the -stationary contact means, means mounting said rigid member of the stationary contact means for limited movement toward and away from the movable contact means and spring means biasing said member toward said movable contact means, and a nezdble shunt conductor connecting said rigid member to the main stationary contact and forming a path for the current which causes the magnetic force produced by the current in flowing through said shunt to bias said rigid member toward the movable contact means.
  • a pair of spaced terniinals, stationary contact means comprising a pair of spaced main contacts electrically connected respectively to said terminals, and a member of rigid conducting material of high electrical conductivity adjacent one of said contacts, said member having an intermediate contact and an arcing contact rigid with said member, a movable switch member for opening and closing the circuit, a bridging contact member carried by said switch member for bridging said main contacts, said bridging member being mounted for limited movement on said switch member toward and away from said main contacts and biased toward said main contacts, a member of rigid conducting material of high electrical conductivity carried by said switch member and having intermediate and arcing contacts rigid with said member for engaging the intermediate and arcing contacts of said stationary contact means, a single iiexible shunt conductor connecting the rigid conducting member and the bridging contact member of said movable switch member to one terminal of said breaker, means for movably mounting and biasing the rigid conducting member of said stationary contact means to cause said intermediate contacts to separate after said intermediate contacts to separate after said intermediate contacts to separate after
  • stationary contact means comprising a stationary main contact connected to one of said terminals, and a member of rigid conducting material of high electrical conductivity having an intermediate contact and an arcing contact rigid with said member, a movable switch member for opening and closing the circuit, a main contact mounted for limited movement on said switch member toward and away from the stationary main contact and biased toward said stationary 'main contact, a member of rigid conducting ma- ⁇ terialiof high electrical conductivity carried by tact means to cause said, intermediate contacts to separate after said main contacts have separated a predetermined distance and to cause said arcing contacts to separate only after said intermediate contacts have separated during opening movement of said switch member, and a flexible shunt conductor connecting the rigid conducting member and the stationary main contact of said stationary contact means.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Breakers (AREA)
US216708A 1938-06-30 1938-06-30 Circuit breaker Expired - Lifetime US2214471A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
NL62088D NL62088C (de) 1938-06-30
US216708A US2214471A (en) 1938-06-30 1938-06-30 Circuit breaker
FR855804D FR855804A (fr) 1938-06-30 1939-06-06 Perfectionnements aux interrupteurs
CH214010D CH214010A (fr) 1938-06-30 1939-06-27 Interrupteur électrique.
DES137669D DE759249C (de) 1938-06-30 1939-07-01 Stromunterbrecher, insbesondere fuer hohe Stromstaerken

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US216708A US2214471A (en) 1938-06-30 1938-06-30 Circuit breaker

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US2214471A true US2214471A (en) 1940-09-10

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US216708A Expired - Lifetime US2214471A (en) 1938-06-30 1938-06-30 Circuit breaker

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US (1) US2214471A (de)
CH (1) CH214010A (de)
DE (1) DE759249C (de)
FR (1) FR855804A (de)
NL (1) NL62088C (de)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2471608A (en) * 1944-04-22 1949-05-31 Ite Circuit Breaker Ltd Circuit breaker contact construction
US2545341A (en) * 1944-04-22 1951-03-13 Ite Circuit Breaker Ltd Blow on arc tip
US2611013A (en) * 1945-11-19 1952-09-16 Westinghouse Electric Corp Electromagnetic trip device
US2769062A (en) * 1952-10-21 1956-10-30 Westinghouse Electric Corp Air circuit breaker contacts
US2875300A (en) * 1955-12-09 1959-02-24 Westinghouse Electric Corp Circuit interrupter
US3158721A (en) * 1962-06-11 1964-11-24 Mc Graw Edison Co Main and auxiliary contacts wherein main relatively stationary contact is pivotally mounted to move in opposite direction to switch arm
US3513275A (en) * 1966-04-14 1970-05-19 Westinghouse Electric Corp Circuit breaker with improved current path and contact means
US3662134A (en) * 1969-06-11 1972-05-09 Westinghouse Electric Corp Circuit breaker with improved current path and contact means
US3770922A (en) * 1972-07-27 1973-11-06 Ite Imperial Corp Circuit breaker contact structure

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1272423B (de) * 1964-02-28 1968-07-11 Licentia Gmbh Kontakteinrichtung

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2471608A (en) * 1944-04-22 1949-05-31 Ite Circuit Breaker Ltd Circuit breaker contact construction
US2545341A (en) * 1944-04-22 1951-03-13 Ite Circuit Breaker Ltd Blow on arc tip
US2611013A (en) * 1945-11-19 1952-09-16 Westinghouse Electric Corp Electromagnetic trip device
US2769062A (en) * 1952-10-21 1956-10-30 Westinghouse Electric Corp Air circuit breaker contacts
US2875300A (en) * 1955-12-09 1959-02-24 Westinghouse Electric Corp Circuit interrupter
US3158721A (en) * 1962-06-11 1964-11-24 Mc Graw Edison Co Main and auxiliary contacts wherein main relatively stationary contact is pivotally mounted to move in opposite direction to switch arm
US3513275A (en) * 1966-04-14 1970-05-19 Westinghouse Electric Corp Circuit breaker with improved current path and contact means
US3662134A (en) * 1969-06-11 1972-05-09 Westinghouse Electric Corp Circuit breaker with improved current path and contact means
US3770922A (en) * 1972-07-27 1973-11-06 Ite Imperial Corp Circuit breaker contact structure

Also Published As

Publication number Publication date
DE759249C (de) 1954-07-05
FR855804A (fr) 1940-05-21
CH214010A (fr) 1941-03-31
NL62088C (de)

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