US2677026A - Circuit breaker - Google Patents
Circuit breaker Download PDFInfo
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- US2677026A US2677026A US287018A US28701852A US2677026A US 2677026 A US2677026 A US 2677026A US 287018 A US287018 A US 287018A US 28701852 A US28701852 A US 28701852A US 2677026 A US2677026 A US 2677026A
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- Prior art keywords
- armature
- bimetal
- movable
- magnetic
- bimetal element
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H71/00—Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
- H01H71/10—Operating or release mechanisms
- H01H71/12—Automatic release mechanisms with or without manual release
- H01H71/40—Combined electrothermal and electromagnetic mechanisms
- H01H71/405—Combined electrothermal and electromagnetic mechanisms in which a bimetal forms the inductor for the electromagnetic mechanism
Definitions
- This invention relates to circuit breakers,- and more particularly to circuit breakersfor controlling lighting and moderate power circuits.
- An object of the invention is-to provide a circuit breaker embodying an improved thermally and magneticallyresponsive trip device wherein the magnetically responsive means is supported 10 direction of'the arrows. entirely by the thermally responsive means.
- the circuit Another object of the invention is-to provide breaker comprises a housing II anda cover an improved thermally and magnetically responplate 13- therefor; both constructed" of molded sive trip device whereinoperation of-the magnetic insulating material; stationary contact means element applies no bending'stress to the thermal 15 I5, movable contact means IT, an operating element and avoids the possibility of the thermal mechanism ll and'a trip device 21. element taking a permanent set due to its.
- the stationary contact I5 is rigidly secured bent when in heated condition. to the inner end of a multi-angular terminal Anotherobjectis to provide a trip device havmember 23' Whichis seated in an angular slot ing an armature movable against the bias of a in the molded housing II.
- the opposite end of the houstripping At the opposite end of the houstripping.
- terminal 9l which at its A further object is to" improve the accuracy 25 inner-"endsupports the trip device (to be later of calibration of the tripdevice and to insure described) and which is provided with a conthat accuracy is maintained even after internector" 3
- terminal in: an electric circuit;
- Another object of the invention is to provide The movable contact IT is rigidly secured on a circuit breaker embodying anrimproved ther- 3O thefree end of au shaped switch arm 31 havmally and magnetically.
- responsive trip device ingits legs 51 supportedin recesses in the legs having the magnetically responsive means 550i a U-shaped operating lever 35'.
- a pivot p a manner to permit adjustment of the thermally i'l mounted in asuitable opening in the housing responsive means without changing the magnetic 35 and?" matching Opening in t V
- A11 ail-gap operating spring 39 is connected under tension
- Another object of the invention is to'provide b etween t Switch armslrand a releasable a circuit breaker embodying a thermally and r1er F Q pm supported m magnetically responsive trip device wherein the m n' P mvthe 9 qi cover magnetically responsive means comprises a core 40 .spacels' pmvmflgd' i fi member and a movable armature both mounted 33 prope?
- the operating lever 3a is provided with an altermg of t thermallyresponslve operating handle 49 moldedintegraltherewith means without disturbing the ad ustment of the and; extendingv through an opening, 5! in the magnetlc alrgap of the movable'armaturehousing H.
- Theoperating lever is also provided Another object of the'invention is to provide with an t member 53 molded integral a circuit breakerwhich-is simple, safeand reliable t th cooperating ith the housing at m in Operation, a d WhiOhiS exp s v t nusubstantially close the opening M in any posifacture.
- the switch arm 3'! is The novel features that are considered charelectrically connected by means ofa flexible acteristic'of the invention-both as'to'structure' connection 59 to one end of. a. bimetal' element and operation, together with additional objects 89iforming'a partofithe trip device 2'! and which and advantages thereof; will be best understood is suitably secured at its upper end,,preferably from thefollowing detailed description of sevby welding, to the inner endof the terminal 95.
- Figure 1 is'a side' elevational View, partly in section, of a circuit breaker embodying the invention
- Fig. 2 is a fragmentary elevational View showinga modification of the trip device
- Fig. 3 is a sectional view taken substantially on line III-III of Fig. 1, and looking in the The switch arm 31 is operated to manually open and close the contacts by manipulation of the handle 49. Movement of the handle in a clockwise direction from the full line position carries the legs of the switch arm 3'! across to the left of the line of action of the operating spring 39 which then biases the switch arm to the open position and causes movement of the switch arm to open position with a snap action.
- the operating mechanism and switch arm are shown in the manually open position by dot and dash lines in Fig. 1.
- the contacts are manually closed by reverse operation of the handle. counterclockwise movement of the handle 39 from the dot and dash position (Fig. 1) to the full line position moves the legs 5'5 of the switch arm 37 across to the right of the line of action of the spring 39 which thereupon acts to close the contacts with a snap action.
- An arc extinguisher is provided to quickly extinguish the are drawn when the circuit is interrupted.
- the are extinguisher may be of any suitable type, the one illustrated comprising a series of slotted plates into which the arc is drawn and extinguished.
- the circuit breaker is adapted to be tripped open instantaneously in response to overloads above a predetermined value, or a short circuit, and after a time delay on lesser overloads by means of the trip device 2
- the current responsive means or trip device 2i comprises the bimetal element till connected by means of the flexible conductor 59 to the switch arm 3'1, an electromagnet It! including a channel-shaped core member I09 and a movable armature I I I, a latch element I 55 and a resilient spring Ill.
- is secured to the end wall of the casing II by means of a screw Q3 and the bimetal element 139 is rigidly secured by suitable means such as welding to the upper inner end of the terminal HI
- the U-shaped core member IE3 is suitably secured, preferably by welding, to the bimetal ele ment to form a unitary assembly.
- the armature member III is pivotally mounted on a pivot pin II3 supported in extensions of the legs or flanges of the U-shaped magnet core I09 at its lower end near the free or movable end of the bimetal element.
- the latch member II5 is rigid with the magnetic armature III adjacent its upper end for normally engaging and restraining the releasable carrier 33 in operative position. The force of the bias on the releasable member 33 is transmitted through the two magnetic members, which are pivoted together, and applied to the bimetal element 89 in tension.
- the armature I I I is biased by means of spring III against a fixed stop II 9 formed inwardly from one leg of the core member m9 thus providing a fixed magnetic airgap.
- the stop H9 is carried by the bimetal and magnetic core assembly and opposes the force of the releasable member 33 which tends to rotate the armature about its pivot.
- the stop II9 limits the airgap to a predetermined size which is independent of the position to which the bimetal and magnetic core assembly may have moved.
- a screw iilI threadedly engaging the core member I99 and the bimetal element 89 is provided for varying the tension of the armature spring II! to thereby vary the minimum overload current required to instantaneously trip the breaker.
- the latch element II5 normally engages and restrains the carrier 33 in operative position as shown in Fig. 1.
- the bimetal element 89 deflects moving its free lower end toward the right (Fig. 1).
- the bimetal element I39 moves the core member I69, armature member III and its actuating or latch portion II5 in unison in the same direction, since the armature is held against the stop portion II9 which moves in fixed relation with the bimetal and core assembly, and causes the latch II5 to release the carrier 33 whereupon the operating mechanism functions in the previously described manner to automatically open the contacts.
- the current flowing through the biinetal element til energizes the core member Iili a suiiicient amount to instantaneously attract and operate the armature i i i toward the side portions or flanges of the channehshaped core Hi9, releas-- ing carrier 33 and effecting instantaneous opening of the contacts.
- the invention provides a circuit breaker of few parts and simple and inexpensive construction having an improved trip device wherein all of the elements are mounted at a single paint on one the terminals of the breairer, the electromagnetic trip device being mounted entirely on the bimetal trip element.
- the magnetic trip values are not affected by adjustment of the thermal trip element.
- the bimetal element can be made stiffer without the relatcning effort thereby providing a more positive thermal trip action.
- Another advantage oi the invention is that the magnetic airgap remains constant re" gardless of changes in ambient temperature.
- the adjusting means comprises a screw 85 threadedly engaging the upper end of the terminal Eli and having its rounded head bearing against a concave recess in the housing i i.
- An opening 87 in the casing permit the insertionof aflsuitable tool for turning the screw 85' to therebyadjust the trip device without removingthe cover I3. This openingmay be sealed to prevent'tampering.
- astraight- 537 having a yoke 99) each'being secured, preferably by welding, to the bimetal element 89, and the other member of magnetic material is a movable armature It! pivotally supported by the yoke member 99'at the two ends'of the U-shapedcore member 8': nearest to the-free or movable end of the bimetal 89:
- Acompression spring I03 biases the armature it! to the unattracted position against a limit stop-comprising a portion I05 of the yoke 93-.
- the stop portion I05 which is carried by the bimetal and core assembly, also opposes the bias on the releasable member 33 which tends to rotate the armature about its pivot.
- the airgap oi the magnet may be varied by bending the portion 165 ofthe' magnet yoke thus changing the position of the stop for the armature.
- the armature NH acts as a latch having a latch'portion 51 for releasably restraining the releasable carrier 33 in operative position.
- the biasing force on the releasable carrier member 33 is exerted on the latch portion 6! and is transmitted through the pivoted member it! to its pivoted lower end and thence to the bimetal element as near its free or movable end, and stresses the bimetal element'in tension rather than in compression which might cause the bimetal to become bowed.
- the bimetal element 89 (Fig; 2) is heated a predetermined amount in response to overload currents below a predetermined value of, for instance 10GO% of rated current, it deflects in'a'direc-tion to move the free end thereof, together with the entire magnet 95, away from the operating mechanism, thereby releasing the carrier 33 and causing automatic opening of the contacts.
- a predetermined value for instance 10GO% of rated current
- the core member 91 attracts the armature I01 against the bias of the resilient spring N33 to effect instantaneous tripping of the: breaker.
- the latch portion 61 is a single actuating portion which is moved either magnetically when the armature It! is attractedto the core 91, or thermally when the bimetal 89.fiexes and .bodily moves both the core 91 and the armature llll.
- the mechanism may be reset and the contacts closed in the previously described manner.
- trip means operable in response to overloadcurrents to release said releasable means, said trip'means comprising a bimetal element traversedand heated by the current of the circuit, an electromagnetic core member mounted for movement by said bimetal element and extending around three sides of said bimetal element to be energized by current traversing said bimetal element; a movable armature pivotally supported on the two side portions of said electromagnetic core member, said electromagnetic core member being operable in response to overloadcurrents above a predetermined value to attract said armature and effectinstantaneous release of said releasable means, and said bimetal element flexing when heated a predetermined amount in response to overload currents below said predetermined value to move said electromagnetic core-member and effect release of said releasable means:
- a circuit breaker including relatively movable contacts, a releasablemember operable when released to effect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electroresponsive means comprising a U-shaped core member and an armature surrounding said bimetal element and energized by the current flow therethrough, said core member being mounted for movement by said bimetal elementupon heating' thereof due to overloads and saidmovement of the bimetal element and core member causing release of said releasable member, and the ends of said U-shapedcore member having thereon pivotal supporting means on which said armature is pivotally mounted on the core member for movement relative thereto magnetically upon the occurrence of heavy overloads to also cause release of saidreleasable' member and opening of said contacts.
- a circuit breaker including relatively movable contacts, a releasable member operable when released to efiect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electroresponsive means comprising a pair of magnetic members on opposite sides of said bimetal element and energized by the current flow therethrough, both or said magnetic members being movable, one of said magnetic members being pivotally mounted on the other magnetic member, a spring biasing said pivotally mounted magnetic member away from the other magnetic member and said pivotally mounted-magnetic member being magneticallymovable about its pivot against the bias of said spring without bending said bimetal element, and the other magnetic member being movable upon bending of said, bimetal member, one of said magnetic members having a latch portion engaging and normally holding said releasable member, said latch portion being movable to releasing position by magnetic attraction between the magnetic members, and said latch portion also being movable to releasing position by bending force of said bimetal element transmitted entirely through one of the magnetic members
- a circuit breaker includingrelativelymovable contacts, a releasable member operable when released to effect opening of said contacts, thermal trip means including a conductor electrically connected to be traversed by current, magnetic responsive means including a pair of ma netic members pivoted together, both of said magnetic members being movable and having said current traversed conductor extending therebetween to create magnetic flux therein, a latch portion rigid with one of said magnetic members and normally engaging and holding said releasable member, one of said magnetic members being movable upon movement of the thermal trip means to move said latch portion and cause release of the releasable member, and said latch portion also being moved upon the magnetic flux causing attraction of said magnetic members relative to each other about the point where they are pivoted together.
- a circuit breaker including relatively mov able contacts, a releasable member operable when released to effect opening of said contacts, a ter minal strip, a bimetal element mounted and electrically connected at its upper end to said terminal strip, a flexible conductor connected to the lower end of the bimetal element and electrically connecting it in series with said contacts, a pair of magnetic members comprising a core member having a U-shaped section of magnetic material extending around the bimetal element and an armature extending across and pivoted on the ends of the U of the core member, said core member being movable upon bending of the bimetal element due to the flow of a predetermined current through the bimetal element, a spring biasing said armature against pivotal movement toward the ends of the U of the core member, and said armature being movable about its pivot against the bias of said spring by the magnetic flux caused in the U-shaped core mem her and armature by the current flow in the bimetal element upon the flow of a higher predetermined current through the
- trip means operable in response to overload currents to release said releasable means
- said trip means including a bi metal element traversed and heated by the current of the circuit, a movably mounted electromagnetic core member movable by said bimetal element, side portions on said electromagnetic core member whereby it extends around three sides of said bimetal element to be energized by current traversing said bimetal element, extensions providing a pivot support on each of the two side portions of said electromagnetic core member, a movable armature pivotally supported on said two extensions, said electromagnetic core member being operable in response to overload currents above a predetermined value to attract said armature and efiect instantaneous release of said releasable means, and said bimetal element flexing when heated a predetermined amount in response to overload currents below said predetermined value to move said electromagnetic core member and effect release of said releasable means.
- a circuit breaker including relatively movable contacts, a releasable member biased to move and effect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, means mounting said bimetal element adjacent one end and leaving it free to move at the other end, electroresponsive means comprising a movably mounted channel-shaped core member and a movable armature surrounding said bimetal element and energized by the current flow therethrough, said movable channel-shaped core memher being operatively connected to be moved upon movement of said bimetal element upon heating thereof due to overloads, said movement of the bimetal element and movable c-ham1e1shaped core member causing release of said releasable member, and the flanges of said movable channelshaped core member having at the end thereof nearest the free end of said bimetal element pivotal supporting means by which said movable armature is pivotally mounted on the channel shaped core member for movement relative there-- to magnetically upon the occurrence of heavy overloads
- a circuit breaker including relatively movable contacts, a releasable member operable when released to eiiect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electro- "esponsive means comprising a pair of magnetic members on opposite sides of said bimetal ele ment and energized by the current flow therethrough, both of said magnetic members being movable, one of said magnetic members being mounted on the other magnetic member for movement theretoward when magnetically attracted thereto, and the other magnetic member being mounted for movement upon bending of said bimetal member, a spring positioned between said magnetic members and biasing said one movable magnetic member away from the other magnetic member, stop means carried entirely by and movable with the two magnetic members for limiting the airgap between the two magnetic members, said one movable magnetic member be-- ing magnetically movable away from its position determined by said stop means against the bias of said spring without bending said bimetal element, said one movable magnetic member having
- a circuit breaker including relatively movable contacts, a releasable member biased to move and effect opening of said contacts, thermal trip means including a conductor electrically connected to be traversed by current, magnetic respcnsive means including a pair of magnetic members, each of said magnetic members being movably mounted, said current traversed conductor extending between said magnetic members to create magnetic flux therein, one of magnetic members having two side portions each opposite one edge of said current traversed conductor, an extension on each side portion having a pivot bearing, the other of said magnetic members having a pair of pivot portions through which 'itis supportedonsaidextensions onsaid side portions, a'latch portion rigid with one of said magnetic members, said latch portion normally engaging and holding said releasable member against its bias, one of said-magnetic members being movable upon-movement of the thermal trip means to move said latch portion and cause release of the releasable member, and said'latch portion alsobeing moved uponthe magnetic flux causing attraction of said magnetic members relative to
- trip means operable to release said releasable means in response to overload currents
- an electromagnet having a core member and an armature member, a current responsive bimetal element mounted at one end and having its other end free to flex when heated, said core member and armature member being positioned on opposite sides of said bimetal element and both being carried and solely supported by said bimetal element adjacent its free end, a pivot axis adjacent the end of the armature member nearest the free end of the bimetal element about which the armature member pivots when attracted to said core member, a single actuating portion carried on said armature member adjacent the end thereof farthest from the free end of the bimetal element for initiating operation of said releasing means both thermally upon movement of the bimetal element and magnetically upon attraction of the armature member to the core member, a stop portion movable with said bimetal element limiting separation
- tri means operable to release said releasable member in response to overload currents comprising a current responsive bimetal element'mounted at one end and movable at the other end and an electromagnet having a core member and an armature member, said armature-member being pivotally movable toward the core member about apivot axis adjacent its end nearest the movable end of the bimetal element, said core member'and armature member being positioned on opposite sides of said bimetal element and both being carried by the movable partof said bimetal element which forms the sole support therefor, a single latch portion rigidly connected to the armature member adjacent its end farthest fromthe-movable end of the bimetal element and movable at all times with said armature member, said single latch portion normally engaging and restraining said releasable member against its bias and transmitting the force thereof to
- a circuit breaker relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal to be moved thereby, an armature member mounted on said bimetal and magnetic core assembly, a spring biasing said armature away from said magnetic core, a sto portion carried by said bimetal and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to a predetermined airgap independent of movement of the bimetal and magnetic core assembly, and an actuating portion rigid With said armature member for initiating operation of said releasable member.
- a circuit breaker relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal, to be moved thereby, an armature member pivotally mounted adjacent its end nearest to the movable end of the bimetal, said armature member being pivotally mounted on said bimetal and magnetic core assembly, a spring biasing said armature away from said magnetic core, a stop carried by said bimetal and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to a predetermined airgap independent of movement of the bimetal and magnetic core assembly, and a latch portion mounted rigid with said pivoted armature adjacent the end thereof farthest from the movable end of the bimetal, said latch portion normally engaging and holding said releas
- a circuit breaker relatively movable contacts, a releasable member biased to move when released and effect opening of sai contacts, a bimetal mounted adjacent one end and free to move at the other end, conductors connecting said bimetal in the circuit through the contacts, a magnetic core assembled on one side of the bimetal adjacent its movable end, an armature member pivotally mounted adjacent its end nearest to the movable end of the bimetal, said armature member being pivotally mounted on said bimetal and magnetic core assembly and being positioned on the side of the bimetal opposite the magnetic core, a latch portion mounted rigid with said pivoted armature member adjacent the end thereof farthest from the movable end of the bimetal, said latch portion rigid with the pivoted armature member being normally engaged by said releasable member and said armature member being biased thereby to move about its pivot in a direction away from the magnetic core, and a stop carried by said movable bimetal and magnetic core assembly limiting movement of the
- a circuit breaker relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal to be moved thereby, an armature member mounted on said bimetal and magnetic core assembly, a coil spring positioned between said armature and magnetic core and biasing said armature away from said magnetic core, stop means carried entirely by said armature and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to an airgap which is independent of movement of the bimetal and magnetic core assembly, a screw threaded portion on said armature and magnetic core assembly for adjusting the initial calibration, and an actuating portion rigid with said armature when the breaker is in use, said actuating por-- tion being movable in the same direction both upon magnetic attraction of
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Description
UNITED STATES PATENT OFF-ICE CIRCUIT BREAKER Melvin Bingenheimer, Beaver, Pan, assignor to WestinghouseE-lectric Corporation, a corporation of Pennsylvania Original application May 9, 19.45, Serial No.
592,804, now Patent No. 2,624,816, dated January 6, ,1953'. Divided and this application May 91,1952, Serial No; 287,018
(Cl; ZOO-88) 16 Claims. 1
This invention relates to circuit breakers,- and more particularly to circuit breakersfor controlling lighting and moderate power circuits. This application is a division of my copending applicationSerial No. 592,804-'= filed May 9, 1945, now Patent No. 2,624,816, is'sued'January 6', 1953.
An object of the invention is-to provide a circuit breaker embodying an improved thermally and magneticallyresponsive trip device wherein the magnetically responsive means is supported 10 direction of'the arrows. entirely by the thermally responsive means. Referring to Fig. l ofthe' drawing, the circuit Another object of the invention is-to provide breaker comprises a housing II anda cover an improved thermally and magnetically responplate 13- therefor; both constructed" of molded sive trip device whereinoperation of-the magnetic insulating material; stationary contact means element applies no bending'stress to the thermal 15 I5, movable contact means IT, an operating element and avoids the possibility of the thermal mechanism ll and'a trip device 21. element taking a permanent set due to its. being The stationary contact I5 is rigidly secured bent when in heated condition. to the inner end ofa multi-angular terminal Anotherobjectis to provide a trip device havmember 23' Whichis seated in an angular slot ing an armature movable against the bias of a in the molded housing II. The outer end of spring other than the thermal-element, so that the terminal 23 is provided with a connecting a stiffer thermal elmentmay be used without means 21 for connecting the terminal 23 in an requiring a large magnetic force for magnetic electric circuit. At the opposite end of the houstripping. ing ll is'disposed' a terminal 9l which at its A further object is to" improve the accuracy 25 inner-"endsupports the trip device (to be later of calibration of the tripdevice and to insure described) and which is provided with a conthat accuracy is maintained even after internector" 3| at its outer end for connecting the rupting heavy short-circuit currents. terminal in: an electric circuit;
Another object of the invention is to provide The movable contact IT is rigidly secured on a circuit breaker embodying anrimproved ther- 3O thefree end of au shaped switch arm 31 havmally and magnetically. responsive trip device ingits legs 51 supportedin recesses in the legs having the magnetically responsive means 550i a U-shaped operating lever 35'. The-operatmounted on the thermally" responsive means in ins lever 35 is=p v ta11ysupp rt d On a pivot p a manner to permit adjustment of the thermally i'l mounted in asuitable opening in the housing responsive means without changing the magnetic 35 and?" matching Opening in t V A11 ail-gap operating spring 39 is connected under tension Another object of the invention is to'provide b etween t Switch armslrand a releasable a circuit breaker embodying a thermally and r1er F Q pm supported m magnetically responsive trip device wherein the m n' P mvthe 9 qi cover magnetically responsive means comprises a core 40 .spacels' pmvmflgd' i fi member and a movable armature both mounted 33 prope? y a m 6 S on the thermally responsive means to permit housing and phecover Pi The operating lever 3a is provided with an altermg of t thermallyresponslve operating handle 49 moldedintegraltherewith means without disturbing the ad ustment of the and; extendingv through an opening, 5! in the magnetlc alrgap of the movable'armaturehousing H. Theoperating leveris also provided Another object of the'invention is to provide with an t member 53 molded integral a circuit breakerwhich-is simple, safeand reliable t th cooperating ith the housing at m in Operation, a d WhiOhiS exp s v t nusubstantially close the opening M in any posifacture. 5 tionof' the handle 49'. The switch arm 3'! is The novel features that are considered charelectrically connected by means ofa flexible acteristic'of the invention-both as'to'structure' connection 59 to one end of. a. bimetal' element and operation, together with additional objects 89iforming'a partofithe trip device 2'! and which and advantages thereof; will be best understood is suitably secured at its upper end,,preferably from thefollowing detailed description of sevby welding, to the inner endof the terminal 95.
eral'embodiments thereof when read in conjunctionwith theaccompanying drawing, in which:
Figure 1 is'a side' elevational View, partly in section, of a circuit breaker embodying the invention;
Fig. 2 is a fragmentary elevational View showinga modification of the trip device; and
Fig. 3 is a sectional view taken substantially on line III-III of Fig. 1, and looking in the The switch arm 31 is operated to manually open and close the contacts by manipulation of the handle 49. Movement of the handle in a clockwise direction from the full line position carries the legs of the switch arm 3'! across to the left of the line of action of the operating spring 39 which then biases the switch arm to the open position and causes movement of the switch arm to open position with a snap action. The operating mechanism and switch arm are shown in the manually open position by dot and dash lines in Fig. 1.
The contacts are manually closed by reverse operation of the handle. counterclockwise movement of the handle 39 from the dot and dash position (Fig. 1) to the full line position moves the legs 5'5 of the switch arm 37 across to the right of the line of action of the spring 39 which thereupon acts to close the contacts with a snap action.
An arc extinguisher is provided to quickly extinguish the are drawn when the circuit is interrupted. The are extinguisher may be of any suitable type, the one illustrated comprising a series of slotted plates into which the arc is drawn and extinguished.
The circuit breaker is adapted to be tripped open instantaneously in response to overloads above a predetermined value, or a short circuit, and after a time delay on lesser overloads by means of the trip device 2|. Operation of the trip device 2| releases the carrier {53 whereupon the overcenter spring moves the carrier clockwise moving the line of action of the overcenter spring 39 to the right of the center line of the i switch arm 31. Thereafter the spring 39 acts to move the switch arm to open position with a snap action. The movement of the carrier is arrested by engagement with a projection iii of the housing II.
The operating mechanism is more fully described and claimed in application Serial No. 592,446, filed May 7, 1945, by S. Gano and G. J. Freese, now Patent No. 2,624,815 issued January 6, 1953, and assigned to the assignee of this invention.
The current responsive means or trip device 2i comprises the bimetal element till connected by means of the flexible conductor 59 to the switch arm 3'1, an electromagnet It! including a channel-shaped core member I09 and a movable armature I I I, a latch element I 55 and a resilient spring Ill. The terminal 9| is secured to the end wall of the casing II by means of a screw Q3 and the bimetal element 139 is rigidly secured by suitable means such as welding to the upper inner end of the terminal HI The U-shaped core member IE3 is suitably secured, preferably by welding, to the bimetal ele ment to form a unitary assembly. The armature member III is pivotally mounted on a pivot pin II3 supported in extensions of the legs or flanges of the U-shaped magnet core I09 at its lower end near the free or movable end of the bimetal element. The latch member II5 is rigid with the magnetic armature III adjacent its upper end for normally engaging and restraining the releasable carrier 33 in operative position. The force of the bias on the releasable member 33 is transmitted through the two magnetic members, which are pivoted together, and applied to the bimetal element 89 in tension.
The armature I I I is biased by means of spring III against a fixed stop II 9 formed inwardly from one leg of the core member m9 thus providing a fixed magnetic airgap. The stop H9 is carried by the bimetal and magnetic core assembly and opposes the force of the releasable member 33 which tends to rotate the armature about its pivot. The stop II9 limits the airgap to a predetermined size which is independent of the position to which the bimetal and magnetic core assembly may have moved. A screw iilI threadedly engaging the core member I99 and the bimetal element 89 is provided for varying the tension of the armature spring II! to thereby vary the minimum overload current required to instantaneously trip the breaker.
The latch element II5 normally engages and restrains the carrier 33 in operative position as shown in Fig. 1. Upon the occurrence of an overload current below a predetermined value of, for instance, 1000% of normal rated current, the bimetal element 89 deflects moving its free lower end toward the right (Fig. 1). The bimetal element I39 moves the core member I69, armature member III and its actuating or latch portion II5 in unison in the same direction, since the armature is held against the stop portion II9 which moves in fixed relation with the bimetal and core assembly, and causes the latch II5 to release the carrier 33 whereupon the operating mechanism functions in the previously described manner to automatically open the contacts.
Before the contacts can be closed following an automatic opening operation, it is necessary to reset and relatch the mechanism. This is accomplished by moving the handle 49 clockwise to the full open position during which movement the leg 55 of the operating lever 35 engages a pin 83 in the carrier 33 and moves the carrier counterclockwise about its pivot 4|. Near the end of its counterclockwise movement, the free end of the carrier 33 wipes by the latch portion Hit, slightly flexing the spring II'I against its bias without substantially bending the bimetal element G9. Thereafter the switch arm is moved to close the contacts I5I'I in the previously described rnanner by movement of the handle 49 counterclockwise to the closed position.
Upon the occurrence of a heavy overload or short circuit, such for example as 1039% of rated current or over, the current flowing through the biinetal element til energizes the core member Iili a suiiicient amount to instantaneously attract and operate the armature i i i toward the side portions or flanges of the channehshaped core Hi9, releas-- ing carrier 33 and effecting instantaneous opening of the contacts.
The invention provides a circuit breaker of few parts and simple and inexpensive construction having an improved trip device wherein all of the elements are mounted at a single paint on one the terminals of the breairer, the electromagnetic trip device being mounted entirely on the bimetal trip element. By this construction the magnetic trip values are not affected by adjustment of the thermal trip element. The bimetal element can be made stiffer without the relatcning effort thereby providing a more positive thermal trip action. Another advantage oi the invention is that the magnetic airgap remains constant re" gardless of changes in ambient temperature.
i l leans is provided whereby the trip device may adjusted to vary the tripping time of the time delay trip means. The adjusting means comprises a screw 85 threadedly engaging the upper end of the terminal Eli and having its rounded head bearing against a concave recess in the housing i i. An opening 87 in the casing permit the insertionof aflsuitable tool for turning the screw 85' to therebyadjust the trip device without removingthe cover I3. This openingmay be sealed to prevent'tampering.
According to the modification of the invention illustrated in Fig. 2- of thedrawing, astraight- 537 having a yoke 99) each'being secured, preferably by welding, to the bimetal element 89, and the other member of magnetic material is a movable armature It! pivotally supported by the yoke member 99'at the two ends'of the U-shapedcore member 8': nearest to the-free or movable end of the bimetal 89: Acompression spring I03 biases the armature it! to the unattracted position against a limit stop-comprising a portion I05 of the yoke 93-. The stop portion I05, which is carried by the bimetal and core assembly, also opposes the bias on the releasable member 33 which tends to rotate the armature about its pivot. The airgap oi the magnet may be varied by bending the portion 165 ofthe' magnet yoke thus changing the position of the stop for the armature. In the unattracted position, the armature NH acts as a latch having a latch'portion 51 for releasably restraining the releasable carrier 33 in operative position. The biasing force on the releasable carrier member 33 is exerted on the latch portion 6! and is transmitted through the pivoted member it! to its pivoted lower end and thence to the bimetal element as near its free or movable end, and stresses the bimetal element'in tension rather than in compression which might cause the bimetal to become bowed.
When the bimetal element 89 (Fig; 2) is heated a predetermined amount in response to overload currents below a predetermined value of, for instance 10GO% of rated current, it deflects in'a'direc-tion to move the free end thereof, together with the entire magnet 95, away from the operating mechanism, thereby releasing the carrier 33 and causing automatic opening of the contacts. When energized in response to overload currents above a value, such for example as 1000% of rated current, or in response to short circuits, the core member 91 attracts the armature I01 against the bias of the resilient spring N33 to effect instantaneous tripping of the: breaker. It is thus seen that the latch portion 61 is a single actuating portion which is moved either magnetically when the armature It! is attractedto the core 91, or thermally when the bimetal 89.fiexes and .bodily moves both the core 91 and the armature llll.
After an automatic opening. operation, the mechanism may be reset and the contacts closed in the previously described manner.
From the foregoing it will be seen that there is provided an improved circuit breaker of simple and inexpensive construction, wherein allele ment of the trip device including the electromagnetic trip means and movable armature are mounted on the bimetallic trip element. By this construction the bimetal element may be adjusted to vary the time delay tripping time of the breaker without changing the magnetic airgap or affecting the instantaneoustriptime of the breaker.
While the invention has been specifically. disclosed in accordance with the provisions of the patent statutes, it is to be understood'that varions changes'in thestructural details and arrangement of parts thereof may be made without departing from-some of the essentialfeatures of the invention;
I claim as my invention:
1. In acircuit breaker comprising relatively movable contacts and means releasable to efiect opening of" said contacts, trip means operable in response to overloadcurrents to release said releasable means, said trip'means comprising a bimetal element traversedand heated by the current of the circuit, an electromagnetic core member mounted for movement by said bimetal element and extending around three sides of said bimetal element to be energized by current traversing said bimetal element; a movable armature pivotally supported on the two side portions of said electromagnetic core member, said electromagnetic core member being operable in response to overloadcurrents above a predetermined value to attract said armature and effectinstantaneous release of said releasable means, and said bimetal element flexing when heated a predetermined amount in response to overload currents below said predetermined value to move said electromagnetic core-member and effect release of said releasable means:
2; A circuit breaker including relatively movable contacts, a releasablemember operable when released to effect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electroresponsive means comprising a U-shaped core member and an armature surrounding said bimetal element and energized by the current flow therethrough, said core member being mounted for movement by said bimetal elementupon heating' thereof due to overloads and saidmovement of the bimetal element and core member causing release of said releasable member, and the ends of said U-shapedcore member having thereon pivotal supporting means on which said armature is pivotally mounted on the core member for movement relative thereto magnetically upon the occurrence of heavy overloads to also cause release of saidreleasable' member and opening of said contacts.
3. A circuit breaker including relatively movable contacts, a releasable member operable when released to efiect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electroresponsive means comprising a pair of magnetic members on opposite sides of said bimetal element and energized by the current flow therethrough, both or said magnetic members being movable, one of said magnetic members being pivotally mounted on the other magnetic member, a spring biasing said pivotally mounted magnetic member away from the other magnetic member and said pivotally mounted-magnetic member being magneticallymovable about its pivot against the bias of said spring without bending said bimetal element, and the other magnetic member being movable upon bending of said, bimetal member, one of said magnetic members having a latch portion engaging and normally holding said releasable member, said latch portion being movable to releasing position by magnetic attraction between the magnetic members, and said latch portion also being movable to releasing position by bending force of said bimetal element transmitted entirely through one of the magnetic members to said latchportion'.
4. A circuit breaker includingrelativelymovable contacts, a releasable member operable when released to effect opening of said contacts, thermal trip means including a conductor electrically connected to be traversed by current, magnetic responsive means including a pair of ma netic members pivoted together, both of said magnetic members being movable and having said current traversed conductor extending therebetween to create magnetic flux therein, a latch portion rigid with one of said magnetic members and normally engaging and holding said releasable member, one of said magnetic members being movable upon movement of the thermal trip means to move said latch portion and cause release of the releasable member, and said latch portion also being moved upon the magnetic flux causing attraction of said magnetic members relative to each other about the point where they are pivoted together.
5. A circuit breaker including relatively mov able contacts, a releasable member operable when released to effect opening of said contacts, a ter minal strip, a bimetal element mounted and electrically connected at its upper end to said terminal strip, a flexible conductor connected to the lower end of the bimetal element and electrically connecting it in series with said contacts, a pair of magnetic members comprising a core member having a U-shaped section of magnetic material extending around the bimetal element and an armature extending across and pivoted on the ends of the U of the core member, said core member being movable upon bending of the bimetal element due to the flow of a predetermined current through the bimetal element, a spring biasing said armature against pivotal movement toward the ends of the U of the core member, and said armature being movable about its pivot against the bias of said spring by the magnetic flux caused in the U-shaped core mem her and armature by the current flow in the bimetal element upon the flow of a higher predetermined current through the bimetal element, a latch portion rigid with one of said magnetic members and engaging and normally holding said i releasable member, and said latch portion being movable to releasing position upon movement of the core member by the bimetal element and being movable to releasing position upon magnetic attraction between the magnetic members.
6. In a circuit breaker comprising relatively movable contacts and means releasable to effect opening of said contacts, trip means operable in response to overload currents to release said releasable means, said trip means including a bi metal element traversed and heated by the current of the circuit, a movably mounted electromagnetic core member movable by said bimetal element, side portions on said electromagnetic core member whereby it extends around three sides of said bimetal element to be energized by current traversing said bimetal element, extensions providing a pivot support on each of the two side portions of said electromagnetic core member, a movable armature pivotally supported on said two extensions, said electromagnetic core member being operable in response to overload currents above a predetermined value to attract said armature and efiect instantaneous release of said releasable means, and said bimetal element flexing when heated a predetermined amount in response to overload currents below said predetermined value to move said electromagnetic core member and effect release of said releasable means.
i ll
7. A circuit breaker including relatively movable contacts, a releasable member biased to move and effect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, means mounting said bimetal element adjacent one end and leaving it free to move at the other end, electroresponsive means comprising a movably mounted channel-shaped core member and a movable armature surrounding said bimetal element and energized by the current flow therethrough, said movable channel-shaped core memher being operatively connected to be moved upon movement of said bimetal element upon heating thereof due to overloads, said movement of the bimetal element and movable c-ham1e1shaped core member causing release of said releasable member, and the flanges of said movable channelshaped core member having at the end thereof nearest the free end of said bimetal element pivotal supporting means by which said movable armature is pivotally mounted on the channel shaped core member for movement relative there-- to magnetically upon the occurrence of heavy overloads to also cause release of said releasable member and opening of said contacts.
8. A circuit breaker including relatively movable contacts, a releasable member operable when released to eiiect opening of said contacts, trip means including a bimetal element electrically connected to be traversed by current, electro- "esponsive means comprising a pair of magnetic members on opposite sides of said bimetal ele ment and energized by the current flow therethrough, both of said magnetic members being movable, one of said magnetic members being mounted on the other magnetic member for movement theretoward when magnetically attracted thereto, and the other magnetic member being mounted for movement upon bending of said bimetal member, a spring positioned between said magnetic members and biasing said one movable magnetic member away from the other magnetic member, stop means carried entirely by and movable with the two magnetic members for limiting the airgap between the two magnetic members, said one movable magnetic member be-- ing magnetically movable away from its position determined by said stop means against the bias of said spring without bending said bimetal element, said one movable magnetic member having rigid therewith an actuating portion movable to a position for effecting release of said releasable member, said actuating portion being movable to releasing positio by the magnetic attraction between the magnetic members, and said actuating portion also being movable to releasing position by bending force of said bimetal element transmitted to said actuating portion through said movable stop means.
9. A circuit breaker including relatively movable contacts, a releasable member biased to move and effect opening of said contacts, thermal trip means including a conductor electrically connected to be traversed by current, magnetic respcnsive means including a pair of magnetic members, each of said magnetic members being movably mounted, said current traversed conductor extending between said magnetic members to create magnetic flux therein, one of magnetic members having two side portions each opposite one edge of said current traversed conductor, an extension on each side portion having a pivot bearing, the other of said magnetic members having a pair of pivot portions through which 'itis supportedonsaidextensions onsaid side portions, a'latch portion rigid with one of said magnetic members, said latch portion normally engaging and holding said releasable member against its bias, one of said-magnetic members being movable upon-movement of the thermal trip means to move said latch portion and cause release of the releasable member, and said'latch portion alsobeing moved uponthe magnetic flux causing attraction of said magnetic members relative to each other about said pivot bearings on the extensions of the side portions.
10. A circuit breaker'including relatively movable contacts, a releasable member biased to move when released to effect opening of said contacts, a terminal strip, a bimetal element mounted and electrically connected at its upper end to said terminal strip and being movable at its lower end, a flexible conductor connected to the lower end of the bimetalelement and electrically connecting it in series with said contacts, a pair of magnetic members comprising a movably mounted channel-shaped core member of magnetic material extending around the bimetal element and an armature pivoted adjacent its lower end on the flanges of the channelshaped'core member adjacent the end thereof nearest the lower movable end of the bimetal element, said channel-shaped core member being movable upon bending of the bimetal element due to the flow of a predetermined current through the bimetal element, a spring-biasing said armature against pivotal movement toward the flanges of the channel-shaped core member, and said armature being movable about its pivot adjacent its lower end against the bias of said spring by the magentic flux caused in the channel-shaped core member and armature by the current flow in the bimetalelement upon the flow of a higher predetermined currentthrough the bimetal element, a latch-portion rigidwith one of said magnetic-members and engaging and normally holding said releasable member against its bias, and said latch portion being movable to releasing position upon movement of the channel-shaped core member by the bimetal element and being movable to releasing position upon magnetic attraction between the magnetic members.
11. In a circuitbreaker comprisingrelatively movable contacts and means releasable to effect opening of said contacts, trip means operable to release said releasable means in response to overload currents including an electromagnet having a core member and an armature member,a current responsive bimetal element mounted at one end and having its other end free to flex when heated, said core member and armature member being positioned on opposite sides of said bimetal element and both being carried and solely supported by said bimetal element adjacent its free end, a pivot axis adjacent the end of the armature member nearest the free end of the bimetal element about which the armature member pivots when attracted to said core member, a single actuating portion carried on said armature member adjacent the end thereof farthest from the free end of the bimetal element for initiating operation of said releasing means both thermally upon movement of the bimetal element and magnetically upon attraction of the armature member to the core member, a stop portion movable with said bimetal element limiting separation of said armature member from said core member so that the core and armature members are both l0 moved uponflexing of the bimetal element while the core and armaturemembers-remain in substantially fixed relation to each other to thereby cause movement of said single actuating portion carried on the armature member and operation of the releasing means upon the occurrence of overloads of relatively low values, resilient means opposing movement of said armature member toward said core member, and said armature member being magnetically movable toward said core member against the'bias of said resilient means about the pivot axis adjacent the end of the armature member nearest the free end of the bimetal element without substantially moving the bimetal element to thereby causemovement of said single actuating portion carried on the other end of the armature member andoperation of the releasing means upon the occurrence of heavy overloads or short circuits.
12. In a circuit breaker comprising relatively movable contacts and a releasable member biased to eifect opening of said contacts, tri means operable to release said releasable member in response to overload currents comprising a current responsive bimetal element'mounted at one end and movable at the other end and an electromagnet having a core member and an armature member, said armature-member being pivotally movable toward the core member about apivot axis adjacent its end nearest the movable end of the bimetal element, said core member'and armature member being positioned on opposite sides of said bimetal element and both being carried by the movable partof said bimetal element which forms the sole support therefor, a single latch portion rigidly connected to the armature member adjacent its end farthest fromthe-movable end of the bimetal element and movable at all times with said armature member, said single latch portion normally engaging and restraining said releasable member against its bias and transmitting the force thereof to the bimetal element in tension, said single latch portion releasing said releasable member both upon thermal movement of the bimetal element and uponmagnetic attraction of the armature member-to the-core member, said core andarma-ture membersboth being connected to be moved by flexing of thebimetal element while the said core and armature members remain in substantially fixed relation to each other to thereby cause movement of said single latch portion connected to the armature and release of said releasable memberupon the occurrence of overloads of relatively low values, resilient means opposing movement of said armature member toward said core member, said armature member being magnetically movable toward said core member about its pivot axis adjacent the end thereof nearest to the movable end of the bimetal element against the bias of said resilient means without substantially moving said bimetal element to thereby cause movement of said single latch portion rigidly connected to the armature and release of the releasable member upon the occurrence of heavy overloads or short circuits, and said releasable member having an end portion engageable with said single latch portion to move it and the armature member against the bias of the resilient means opposing movement of the armature member so as to relatch with said single latch portion without substantial movement of the bimetal element.
13. In a circuit breaker, relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal to be moved thereby, an armature member mounted on said bimetal and magnetic core assembly, a spring biasing said armature away from said magnetic core, a sto portion carried by said bimetal and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to a predetermined airgap independent of movement of the bimetal and magnetic core assembly, and an actuating portion rigid With said armature member for initiating operation of said releasable member.
14-. In a circuit breaker, relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal, to be moved thereby, an armature member pivotally mounted adjacent its end nearest to the movable end of the bimetal, said armature member being pivotally mounted on said bimetal and magnetic core assembly, a spring biasing said armature away from said magnetic core, a stop carried by said bimetal and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to a predetermined airgap independent of movement of the bimetal and magnetic core assembly, and a latch portion mounted rigid with said pivoted armature adjacent the end thereof farthest from the movable end of the bimetal, said latch portion normally engaging and holding said releasable member.
15. In a circuit breaker, relatively movable contacts, a releasable member biased to move when released and effect opening of sai contacts, a bimetal mounted adjacent one end and free to move at the other end, conductors connecting said bimetal in the circuit through the contacts, a magnetic core assembled on one side of the bimetal adjacent its movable end, an armature member pivotally mounted adjacent its end nearest to the movable end of the bimetal, said armature member being pivotally mounted on said bimetal and magnetic core assembly and being positioned on the side of the bimetal opposite the magnetic core, a latch portion mounted rigid with said pivoted armature member adjacent the end thereof farthest from the movable end of the bimetal, said latch portion rigid with the pivoted armature member being normally engaged by said releasable member and said armature member being biased thereby to move about its pivot in a direction away from the magnetic core, and a stop carried by said movable bimetal and magnetic core assembly limiting movement of the armature member away from the magnetic core to a predetermined airg-ap independent of the position to which the movable bimetal and magnetic core assembly may have moved.
16. In a circuit breaker, relatively movable contacts, a releasable member operable when released to effect opening of said contacts, a bimetal mounted at one end and free to move at the other end, conductors connecting said bimetal to be traversed by the current through the contacts, a magnetic core member assembled on the movable part of the bimetal to be moved thereby, an armature member mounted on said bimetal and magnetic core assembly, a coil spring positioned between said armature and magnetic core and biasing said armature away from said magnetic core, stop means carried entirely by said armature and magnetic core assembly and limiting movement of the armature due to its bias away from the magnetic core to an airgap which is independent of movement of the bimetal and magnetic core assembly, a screw threaded portion on said armature and magnetic core assembly for adjusting the initial calibration, and an actuating portion rigid with said armature when the breaker is in use, said actuating por-- tion being movable in the same direction both upon magnetic attraction of the armature to the magnetic core and upon thermal bending of the bimetal due to an overload to initiate operation of said releasable member to eifect opening of the contacts.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 2,300,884 Gano Nov. 3, 194.2 2,568,423 Walker et a1 Sept. 18, 1951 2,573,306 Casey Oct. 30, 1951 2,573,307 Casey Oct. 30, i
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
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US592804A US2624816A (en) | 1945-05-09 | 1945-05-09 | Circuit breaker |
GB14036/46A GB611817A (en) | 1945-05-09 | 1946-05-09 | Improvements in or relating to trip means for electric circuit breakers |
DEW2158A DE823755C (en) | 1945-05-09 | 1950-05-23 | Auto switch |
US287018A US2677026A (en) | 1945-05-09 | 1952-05-09 | Circuit breaker |
Applications Claiming Priority (2)
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US592804A US2624816A (en) | 1945-05-09 | 1945-05-09 | Circuit breaker |
US287018A US2677026A (en) | 1945-05-09 | 1952-05-09 | Circuit breaker |
Publications (1)
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US2677026A true US2677026A (en) | 1954-04-27 |
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US287018A Expired - Lifetime US2677026A (en) | 1945-05-09 | 1952-05-09 | Circuit breaker |
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US592804A Expired - Lifetime US2624816A (en) | 1945-05-09 | 1945-05-09 | Circuit breaker |
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US3178535A (en) * | 1957-04-12 | 1965-04-13 | Westinghouse Electric Corp | Automatic circuit breaker with improved bimetallic and electromagnetic trip device |
US3179767A (en) * | 1956-06-21 | 1965-04-20 | Wadsworth Electric Mfg Co | Circuit breaker with improved electromagnetic tripping device |
US3200217A (en) * | 1962-03-27 | 1965-08-10 | Westinghouse Electric Corp | Circuit breaker with thermal and magnetic trip means |
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US9230768B2 (en) * | 2012-02-28 | 2016-01-05 | Siemens Aktiengesellschaft | Circuit breaker thermal-magnetic trip units and methods |
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DE875063C (en) * | 1948-10-02 | 1953-04-30 | Siemens Ag | Small circuit breaker with direct current flowing through the bimetal release |
NL186856B (en) * | 1953-04-22 | Ucb Sa | PROCEDURE FOR CATALYTIC HYDROGENOLYZING OF MALEIC ANHYDRIDE. | |
US2813167A (en) * | 1953-07-21 | 1957-11-12 | Westinghouse Electric Corp | Circuit breaker |
US3098136A (en) * | 1955-06-09 | 1963-07-16 | Square D Co | Circuit breaker |
US2989604A (en) * | 1957-04-04 | 1961-06-20 | Gen Electric | Circuit breaker |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2824191A (en) * | 1953-02-05 | 1958-02-18 | Fed Electric Prod Co | Circuit breakers |
US2776349A (en) * | 1954-10-20 | 1957-01-01 | Gen Electric | Magnetic thermal trip |
US2904655A (en) * | 1954-10-28 | 1959-09-15 | Westinghouse Electric Corp | Circuit breaker |
US2902560A (en) * | 1955-05-18 | 1959-09-01 | Square D Co | Circuit breaker |
US2876309A (en) * | 1955-06-17 | 1959-03-03 | Fed Pacific Electric Co | Circuit breakers |
US3165609A (en) * | 1955-08-04 | 1965-01-12 | Fed Pacific Electric Co | Temperature compensated circuit breakers |
US2847533A (en) * | 1956-06-11 | 1958-08-12 | Fed Pacific Electric Co | Circuit breakers |
US2897314A (en) * | 1956-06-11 | 1959-07-28 | Fed Pacific Electric Co | Circuit breakers with thermal and magnetic tripping |
US3179767A (en) * | 1956-06-21 | 1965-04-20 | Wadsworth Electric Mfg Co | Circuit breaker with improved electromagnetic tripping device |
US2866027A (en) * | 1956-10-04 | 1958-12-23 | Westinghouse Electric Corp | Circuit breaker |
US3178535A (en) * | 1957-04-12 | 1965-04-13 | Westinghouse Electric Corp | Automatic circuit breaker with improved bimetallic and electromagnetic trip device |
US3110786A (en) * | 1959-11-03 | 1963-11-12 | Westinghouse Electric Corp | Electromagnetic thermal current circuit breaker |
US3109907A (en) * | 1960-10-14 | 1963-11-05 | Square D Co | Tripping mechanism for electric circuit breaker |
US3200217A (en) * | 1962-03-27 | 1965-08-10 | Westinghouse Electric Corp | Circuit breaker with thermal and magnetic trip means |
US3487343A (en) * | 1967-12-21 | 1969-12-30 | Ite Imperial Corp | Circuit breaker thermal and magnetic tripping mechanism |
FR2712731A1 (en) * | 1993-11-15 | 1995-05-24 | Gen Electric | Thermo-magnetic trip unit for circuit breaker in molded case and circuit breaker using such a unit. |
US9230768B2 (en) * | 2012-02-28 | 2016-01-05 | Siemens Aktiengesellschaft | Circuit breaker thermal-magnetic trip units and methods |
Also Published As
Publication number | Publication date |
---|---|
DE823755C (en) | 1951-12-06 |
US2624816A (en) | 1953-01-06 |
GB611817A (en) | 1948-11-04 |
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