US3194922A

US3194922A - Circuit interrupter with improved compact arrangement of parts

Info

Publication number: US3194922A
Application number: US130045A
Authority: US
Inventors: James P Ellsworth; Robert H Flick
Original assignee: Westinghouse Electric Corp
Current assignee: CBS Corp
Priority date: 1961-08-08
Filing date: 1961-08-08
Publication date: 1965-07-13
Anticipated expiration: 1982-07-13

Description

July 13, 1965 J. P. ELLswoRTH ETAL 3,194,922

CIRCUIT INTERRUPTER WITH IMPROVED COMPACT ARRANGEMENT OF PARTS Filed Aug. 8. 1961 2 Sheets-Sheet 1 nhn United States Patent O 3,194,922 CIRCUIT INTERRUPTER WITH MPROVED COMPACT ARRANGEMENT F PARTS I James P. Ellsworth, Beaver, and Robert H. Flick, Brighton Township, lteaver County, Pa., assignors to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Filed Aug. S, 1961, Ser. No. 130,045 7 Claims. (Cl. Zitti- 116) This invention relates to circuit interrupters and more particularly to circuit breakers for controlling lighting and moderate power electric circuits.

In order to provide the industrial market with less expensive installations that take up less plant space without sacrificing power ratings or efficiency, circuit-breaker engineers often devote a considerable amount of time and effort developing compactly constru-cted circuit breakers having increased current carrying and interrupting ratings. These compact breakers are not only less expensive to manufacture; but they also save space in control centers. Thus, panelboard and control panel builders can manufacture and assemble smaller and less expensive control centers for the industrial market.

Accordingly, an object of this invention is to provide an improved compactly construct-ed circuit breaker.

ln certain types of circuit breakers, the requisite operating .structures comprise cooperable contacts, an arcextinguishing structure or space in which an arc can be drawn and extinguished, an operating mechanism for operating the contact structure, or handle for manual operation of the operating mechanism, a latch structure for maintaining the operating mechanism in operating position and a trip structure automatically operable thermally and/or lmagnetically upon the occurrence of certain abnormal current conditions to operate the latch structure to release the operating mechanism to eiiect opening of the contacts.

Another object of this invention is to provide an improved circuit breaker having the above-mentioned structures constructed and arranged in such a manner as to take full advantage of the available space within the circuit breaker housing,

Another object ot this invention is to provide a circuit breaker having a mechanism with increased current-carrying and interrupting capacity which mechanism is disposed within a circuit Ibreaker housing that is no higher, no wider and only nominally longer than prior art circuit breakers 'having less current-carrying and in-` terrupting capacities. Thus, the improved higher rated circuit breaker of this invention can be mounted on standard panel-board m-ountings that formerly supported lower rated circuit breakers.

A further object of this invention is to provide an improved circuit breaker having a trip structure that is operatively connected to a latch structure which structures are disposed on opposite sides or ends of the circuitbreaker operating mechanism.

A general object of the invention is to provide a circuit breaker having an improved circuit-breaker mechanism.

The invention, both as to constructionand operation, together with additional objects and advantages thereof, will Ibe best understood from the following detailed description when read in conjunction with the accompanying drawings, lin which:

FlGURE 1 is a top plan View on an enlarged scale of a circuit breaker embodying the features of this invention, a ypart of the cover being broken away to more 'clearly show some of the parts;

"ice g FIG. 2 is a vertical sectional view of the circuit breaker taken substantially along the line H-II of FiG. l, and looking in the direction indicated by the arrows; the circuit breaker being shown in the open circuit position;

FlG. 3 is a vertical sectional View, of part of the circuit breaker, taken substantially along the line Ill-lll of FIG. 1, and looking in the direction indicated by the arrows;

FIGS. 4 and 5 are an end view and a side view, respectively, of one of the latch members of the circuit breaker mechanism;

FiGS. 6 and 7 are an end and a side view, respectively of another of the latch members of the circuit breaker mechanism; and,

FIGS. S and 9 are an end and aside View, respectively, of the releasable member of the circuit breaker mechamsm.

Referring t-o the drawings, and particularly to FIGS. 1-3 thereof, a three-pole type circuit breaker S shown therein comprises a housing 7 having a circuit-breaker mechanism 9 (FiG. 2) supported therein. The housing 7 is a two-part housing comprising a base 11 and a cover 12 both of which are composed of a molded insulating material. Cooperating insulating barriers 13 (MGS. 1 and 3) in the base and cover serve to provide three compartments 14 (FIG. 1) for the three pole units in a manner well known in the art. A stationary contact 15, a mov-able contact 17 and an arc-extinguishing structure indicated generally at 19 are provided in each pole unit of the breaker. Each of the arc-extinguishing structures 19 comprises a plurality of slotted magnetic plates 21 supported by ank insulating cover 23. The slotted magnetic plates 21 operate to extinguish the arc that is generated when the contacts 15, 17 open, in a manner well known in the art.

The circuit-breaker mechanism 9 also comprises a single operating mechanism Z5, and a single latch structure 27 disposed in the center compartment or pole unit. A trip structure 29 is provided in each of the three pole units for effecting automatic opening of the breaker. A single handle 31 is provided for manual opera-tion of the circuit breaker to open and close the circuit breaker in a manner to be hereinafter specifically described.

The stationary contact 15 for each pole unit is rigidly mounted on the inner end of a conducting strip 33. A solderlessterminal connector 35 of a type well known in `the art is provided at the outer end of each of the conlducting strips $3 to permit connection of the circuit breaker in an electric circuit. The movable contact 17 for each of the pole units is mounted on a movable contact arm 37 that comprises two

parts

38 and 39 that are pivotally connected by means of a pivot pin 40. ln each pole unit, a spring 41 biases the part 38 of the movable contact arm 37 about the pivot 4h to provide resilient contact pressure when the movable contact arm 37 is in the closed position. The movable contact arms 37 for the several pole units of the Ibreaker are all rigidly secured to a common insulating tie bar 42 that is rotatably supported on two insulating side plates 43 (FiG. 1) which insulating side plates 43 support the operating mechanism 25 and latch mechanism 27 in the center compartment 14 of the circuit breaker.

In each pole unit, a ileXible conductor 44 is welded at one end to the part 3S of the movable Contact arm 37 and at the other end to one end of a conducting strip 45. The other end of the conducting strip 45 is welded to the upper end of a bimetal member 46. The lower end of the bimetal member 46 is connected to a conductor 47 that has a solderless terminal connector 4S attached to its outer end. A. screw 49 secures the conductor 47, birnetal 46, and the parts carried by these members, to the base 11 of the housing 7.

When the breaker is in the closed position, the circuit through each pole unit extends from the terminal connector 35 through the conducting strip 33, the contacts l5 and 17, the part 33 of the movable contact arm 37, the llexible conductor 44, the conducting strip 45, the bimetal member 46, the conductor 47 to the terminal connector 43.

The operating mechanism 25 (FlG. 2) comprises an inverted generally U-shaped operating lever 5l having its inner ends pivoted in generally V-shaped notches 53 (FIG. 3) in the insulating barriers 13 that are molded integral with the housing base l1. An operating member 55, which includes the handle 3l and an arcuate insulating shield 57, is mounted on the outer end of the operating lever 5l. T he handle 3l extends out through an opening S9 which opening 59 is closed by the arcuate shield S7 in all positions of the operating member 55.

The movable contact arm 37 for the center pole unit of the breaker is operatively connected by means of a toggle comprising toggle links 6l and 63, to one end of a releasable member or cradle 65 that is pivotally supported, -intermediate its ends, on the insulating side plates 43 by means of a pin 67.

The toggle links 6l and 653 are pivotally connected together by means of a knee pivot pin 69. The toggle link dit is pivotally connected to one end of the releasable member 65 by means orc a pivot pin 7l, and the toggle link 63 is pivotally connected to the part 39 of the movable Contact arm 37 for the center pole unit by means of the pivot pin 49. Two overcenter springs 75 (only one being shown in FIG. 2) are connected under tension between the knee pivot pin 69 of the toggle 6l, 63, and a pin 77 that is supported in the upper portion of the operating lever 5l. As can be seen in FlG. 2, the tie bar 4Z is positioned within the connes of a generally V- shaped portion 73 of the releasable member 65. The genorally V-shaped portion 73 is the part of the releasable member 65 that extends between the pivots 67 and 71.

The side plates 43 and the parts supported thereby are connected to the housing base ll by means of a bracket 75B (FIG. 2) having extensions 79 that engage in suitable openings in the side plates. The bracket 73 is held to the base lll by means of a screw The circuit breaker 5' is shown in FIGS. 1 3 in the oi or open-circuit position. The contacts are manually closed by clockwise movement of the handle 3l from the off position (FIG. 2) to the on position, which movement moves the operating lever 5l clockwise about the pivot 53 (FIG. 3). This movement moves the line of action of the overcenter springs 75 to the right of the line E9-7l whereupon the springs '75 operate to straighten the toggle el, 63 and move the movable contact arm 37 for the center pole unit counterclockwise, which movement, because all of the movable contact arms 37 are connected to the common rotatable tie bar 42, moves all of the contact arms 37 of the several pole units of the breaker to the closed position with a snap action.

The contacts are manually opened by movement of the handle 3l, counterclockwise from the on position to the off position, which movement moves the operating lever 5l countcrclockwise about the pivot (FIG. 3). rThis movement moves the line of action of the overcenter springs 75 to the left of the line la-71 whereupon the overcenter springs 75 operate to elect collapse of the toggle 6l, 63 and opening movement of the movable contact arm 37 for the center pole unit which movement, because of the common tie bar 42, moves all of the movable contact arms 37 to the open position shown in FlG. 2 with a snap action.

The above-mentioned manual opening and closing operations of the circuit breaker can be properly eilected only when the releasable member 65 is latched in the normal position shown in FlG. 2 by means of the latch structure Z7.

The latch structure 27 (FIG. 2) comprises a main latch 83 (FlGS. 6 and 7) that is pivotally supported between the insulating side plates 43 by means of a pin 85. A torsion spring 87 (FIGS. l and 2) biases the main latch S3 counterclockwise about the pivot 85. The releasable member 65 is biased in a clockwise direction about the pivot 67 by means of the overcenter springs 75 which motion is prevented when the parts are in the latched position shown in FIG. 2 by engagement of one end 89 of the releasable member 65 with a latch portion 91 of the main latch S3. These forces tend to rotate the main latch 83 in a counterclockwise direction about the pivot 8S which motion is prevented by engagement of a portion 93 (FlG. 7) on the main latch 83 with the periphery of a cylindrical pin or rod 75 that is part of a secondary latch member 97 (FlGS. 4 and 5). The pin 95 of the secondary latch member 97 is positioned in suitable openings in the insulating side plates S3 to rotatably support the latch member 97 on the side plates. A torsion spring 99 (FGS. l and 2) biases the secondary latch member 97 clockwise about the pivot 95'. This clockwise movement is limited by engagement of a part ltlll of the secondary latch member 97 with a pin lill that is supported between the insulating side plates 43.

Upon the occurrence of an automatic tripping operation, the secondary latch member S7 is moved counterclockv-Jise about the pivot in a manner to be hereinafter specilically described. This motion rotates the pin portion 95 of the secondary latch member 97 to a position wherein the portion 93 (l5-EG. 7) of the main latch member 83 is adjacent a notch M43 (FIG. 4) in the pin 95, whereupon the force of the overcenter springs 75' operates to pivot the releasable member 65 clockwise about the pivot 67. This movement of the releasable member 65 moves the main latch 83 counterclockwise rapidly moving the latch portion 93 (FlG. 7) into the slot M3 (FlG. 4) of the pin portion 95 of the secondary latch member 97. This motion is limited by engagement of a portion MBS (FIG. 7) ol the main latch 53 with the periphery of the pin 95. When the main latch 83 snaps into the above position, the latch portion 9E. thereon clears the end 39 of the releasable member o5 releasing the member o5. The torce of the torsion spring 87 maintains the main latch 33 in this unlatched position. When the releasable member 65 is released, the overcenter springs 75 operate to rotate this member clockwise about the pivot 67, which movement moves the line ot action of the operating springs 75 to the left of the line E9-7l of the toggle el, d3 (which toggle is straightened when the contacts are in the closed position), whereupon the overcenter springs 75 operate to collapse the toggle 6l, 63 to effect opening of the contact arms 37 for all of the pole units of the circuit breaker in the same manner hereinbefore described.

During this automatic opening or tripping operation, the handle 3l is moved, to a tripped position intermediate the ott and on positions, thereby giving a visual indication that atrippinfy operation has occurred.

Before the contacts can be closed following a tripping or automatic opening operation, it is necessary to reset and relatch the mechanism. This is accomplished by moving the handle 3l counterclockwise from the intermediate ipped position to the extreme oir position. During this movement, a projection lid-'7 on the operating le er 5l engages a pin l@ that is rigidly attached to the releasable member 65 moving the releasable member 65 counterclockwise about the pivot 57. Near the end of this movement, the end 89 of the releasable member 65 engages a portion 113 (FIG. 7) of the main latch S3 moving the main latch 83 clockwise about its pivot 35 to clear the position 93 thereof from the notch T tl3 (FIG. 4) of the pin 95 whereupon the torsion spring 59 (FIG. 2) operates to rotate the pin 95 and the secondary latch member 97' clockwise to the latching position. Thereafter, when the handle 31 is released, the main latch 83 is again restrained from unlatching movement by engagement of the portion 93 (FG. 7) with the periphery of the bar 95 and the clockwise tripping movement of the releasable member 65 is prevented by engagement of the end 3^) thereof with the latch portion 91 of the main latch b3. The contacts can then be closed manually in the ysame manner previously described by movement of the handle 31 from the ott to the on position.

The secondary latch member 97 is moved to the unlatchcd position during an automatic tripping operation by means of the trip structure 29 (FIG. 2). In addition to the bimetal member 46, the trip structure 29, there being one in each of the compartments 14 or pole units of the circuit breaker, comprises a U-shaped magnetic member 115 rigidly secured to the bimetal member 46. An armature 117 is disposed adjacent the legs or pole faces ot the magnetic member 115 and is supported on an insulating trip bar 119 that is common to all of the pole units ot the breaker. The trip bar 119 is rotatably supported in depressions 120 (FIG. 3) in the barriers 13 of the housing base 11. An insulating member 121, for each pole unit, is also attached to the trip bar 119 and the free end thereof engages an adjusting screw 123 that is threaded through the bimetal member t6 and conducting strip 45. The adiusting screw 1.23 can be rotated to move the insulating member 121 and rotate the trip bar 119 to vary the dimension of the gap between the armature 117 and magnetic member M5.

The trip structure 29 yand latch structure 27 are connected by means Lof an elongated insulating connecting member 127 (FGS. l and 3). The connecting member 127 is pivotally connected at one end to ,an insulating member 129 by means of a pivot pin 131 Which member Sii-i is rigidly secured to the trip bar 119. The connecting member 127 is pivotally connected at the other end thereof to a pin 13S (FIGS. 4 and 5) that is rigidly secured to the secondary latch member 97.

Upon the occurrence of an overload current of, for example, up to ldGG% of normal rated current in any ot' the pole units of the circuit breaker, the bimetal member i6 for that pole unit is heated and it detiects to the right. This movement, because of the engagement of the associated adjusting screw 123 with the associated insulating member 121, rotates the insulating member to rotate the common trip bar 119, and the member 129 (PEG. 3) in a clockwise direction. This movement .movesfthe elongated connecting member 127 to the right (FGS. 1 and 3) to move the secondary latch member 9'? counterclockwise about its pivot 9S to release the main latch member S3 and effect automatic opening of the contacts ot all of the pole units in the Same manner hereinbetore specically described.

Upon the occurrence of an overload or short-circuit current ot, for example, 1GOG% or more ot rated current in any of the pole units of the breaker, this current flowing through the bimetal riti, of the overloaded pole unit, generates a magnetic flux in the associated magnetic member 11e' that is strong enough to attract the associated armature 117 moving the armature 117 .and the common trip bar 119, to which the armature is attached, cloclfwise. This clockwise movement o the trip bar 1l9 moves to move the connecting member 127 to the right (FLGS. l and 3) the secondary latch member 97 counterclockwise about its pivot 95. This counterclockwise movement of the secondary latch member 97 releases the main latch member S3 to effect .automatic opening of the contacts in all of the pole units in the same manner hereinbeore specitically described.

When the breaker is reset and relatched after an automatic tripping operation, the secondary latch`97 is reset, in the position in which it is shown in FlGS. l and 2, in the manner hcreinbetore specifically described. This resetting operation also resets all of the parts that are connected to the secondary latch 97. Thus, when the 6 breaker is reset the connecting member 127, trip bar 119 and the insulating member 121 and armature 127 that are `attached to the trip bar 119, are all reset in the operating position shown in FiGS. 1-3.

From the foregoing description7 it will be understood that there is provided a circuit breaker having an improved compactly constructed circuit-breaker mechanism. The latch structure and trip structure are disposed on opposite sides of the operating mechanism and they are connected by means of an elongated connecting member. Thus, full advantage is taken of the available space on both sides of the operating mechanism. The releasable trip member is pivoted intermediate its ends and it is latched at one end thereof in the normal operating position by the latch structure. The other end of the trip member is connected to the toggle of the operating mechanism. With this arrangement, a full tripping movement of the releasable member occurs in .a limited amount of space. The common tie bar is rotatably supported Within the contines of a generally V-shaped part on one side of the intermediate pivot of the releasable member. Thus, in each pole unit the contact arm carried by the tie bar swings in an `are moving the contact that is supported thereon in an arc-extinguishing space or structure that is disposed on a side of the operating mechanism that is opposite the operating handle of the breaker. The improved compact circuit breaker of this invention is no wider, no higher and only nominally longer than priorart circuit breakers having less current-carrying and interrupting capacities.

While the invention has been disclosed in accordance with the provisions of the patent statutes, it is to be understood that various changes in the structural details and arrangement of parts thereof may be made Without departing from the spirit of the invention.

We claim as our invention:

1. A.` circuit breaker comprising, in combination, a stationary contact, a movable contact cooperable with said stationary contact to open and close an electric circuit, an operating mechanism comprising a releasable member and overcenter spring means, latch means disposed on a first side of said operating mechanism and latching said releasable member in a normal position, trip means disposed on a side of said operatingy mechanism which is opposite said tirst side, means operatively conecting said trip means to said latch means, upon the occurrence of certain abnormal current conditions, said trip means automatically operating through said connecting means to move said latch means to effect release of said releasable member, and said releasable member when released moving to operate said overcenter spring meansr to effect opening of said contacts.

2. A multi-pole circuitbreaker comprising, in combination, a housing having three compartments therein, stationary and movable contacts in each of said compartments, a movable contact arm in each of said compartments carrying the associated movable contact thereon, a common tie bar connecting said movable Contact arms for unitary movement, an operating mechanism comprising a releasable member, trip means in each of said .compartments disposed at one side of said operating mechanism, a common trip bar operatively connected to all of said trip means, latch means supported Within said yhousing on a side of said operating mechanism which kis opposite said first side, said latch means comprising la latch member movable to release said releasable member, said releasable member when released operating to etect movement of said tie bar to effect opening of all of said contacts, connecting means operatively connecting said trip bar to said movable latch member, and upon the occurrence of certain overload current conditions in any of said compartments the trip means in the overloaded compartment operating to effect movement of said trip bar to move said connecting means to thereby move said movable latch member `to release said releasable member.

3. A circuit breaker comprising, in combination, a stationary contact, a movable contact, a movable contact arm carrying said movable Contact and movable to open and close said contacts, an operation mechanism comprising a releasable member pivotally supported on a fixed pivot and overcenter spring means, a manually operable handle disposed on a rst side of said operating mechanism and being movable to Operate said overcenter spring means to open and close said contacts, an arc-extinguishing structure for extinguishing an arc drawn when said contacts open, said arc-extinguishing structure being disposed on a second side of said operating mechanism opposite said rst side, latch means disposed on a third side of said operating mechanism and latching said releasable member in a normal position, trip means disposed on a fourth side of said operating mechanism opposite said third side, means operatively connecting said latch means to said trip means, said trip means being automatically operable upon the occurrence of certain abnormal current conditions to operate said connecting means to operate said latch mean to release said releasable member, and said releasable member when released pivoting to move said overcenter spring means to etlect opening of said contacts.

4. in a multi-pole circuit braker having a housing divided into three compartments, stationary and movable contacts in each compartment, a movable contact arm in each compartment carrying the associated movable contact thereon, a tie bar connecting said movable contact arms for unitary movement, trip means supported at one end of said housing within each of said compartments, a common trip bar operatively connected to all of said trip means, latch means supported within said housing at the end opposite said one end, an operating mechanism supported within said housing intermediate said ends, said latch means latching said operating mechanism in a normal position and being releasable to release said operating mechanism, said operating mechanism when released operating to move said tie bar to open all of said contacts, connecting means comprising an elongated connecting member operatively connected at one end of said common trip bar and at the other end to said latch means, upon the occurrence of certain overload current conditions in any of said compartments the trip means in the overloaded compartment operating to move said common trip bar to move said connecting member to release said latch meansJ an arcextinguishing structure in each compartment disposed below said operating mechanism and serving to extinguish an arc drawn when the associated contacts open, and an operating handle extending from said housing above `Said operating mechanism and being manually operable when said operating mechanism is latched in said normal position to operate said operating mechanism to open and close all of said contacts. i

5. A circuit breaker comprising, in combination, a stationary contact, a movable contact arm carrying said movable contact and being movable about a pivot to open and close said contacts, operating mechanism cornprising a releasable member pivotally supported intermedate its ends, a toggle connected to one end of said releasable member, latch means latching the other end of said releasable member, said releasable member comprising a generally U-shaped portion between said pivot and said one end thereof, said pivot of said movable contact arm being disposed generally within the contines of said generally U-shaped portion, trip means operable upon the occurrence of certain abnormal current conditions to operate said latch means to release said releasable member, and said releasable member when released pivoting to effect opening of said contacts.

ti. A circuit breaker comprising, in combination, a stationary contact, a movable contact, a movable contact arm carrying said movable contact and being movable about a pivot to open and close said contacts, an operating mechanism comprising a releasable member pivotally supported intermediate its ends, a toggle connected to one end of said releasable member, latch means disposed on a first side or" said operating mechanism and latehing the other end of said releasable member, a said releasable member comprising a generally U-shaped portion between said pivot and said one end thereof, said pivot of said movable contact arm being disposed within the contines of said generally U-shaped portion, trip means disposed on a side of said operating mechanism which is opposite said first side, connecting means operatively connecting said trip means with said latch means, upon the occurrence of certain abnormal current conditions said trip means operating through said connecting means to operate said latch means to release said releasable member, and said releasable member when released pivoting to etect opening of said contacts.

7. A circuit breaker comprising, in combination, a stationary contact, a movable contact, a movable contact arm carrying said movable contact and being movable about a pivot to open and close said contacts, an operating mechanism comprising a releasable member pivotally supported intermediate its ends, a toggle connected at one end of said releasabie member, latch means disposed on a trst side of said operating mechanism and latching `the other end of said releasable member in a normal position, said releasable member comprising a generally U-shaped portion between said pivot and said one end thereof, said pivot of said movable contact arm being disposed generally within the contines of said generally U-shaped portion, trip means disposed on a second side of said operating mechanism opposite said rst side, means operatively connecting said trip means and said latch means, said trip means being operable upon the occurrence of certain abnormal current conditions to operate said latch means to release said releasable member, and said releasable member when released pivoting to effect collapse of said toggle to elect opening ot said contacts, said contacts when opening establishing an arc therebetween, an arc-extinguishing structure for extinguishing said arc and being disposed on a third side or" said operating mechanism, an operating handle disposed on a fourth side of said operating mechanism opposite said third side, and when said releasable member is latched in said normal position said operaing handle being manually movable to etlect opening and closing of said contacts.

References Cite-tl by the Exan iner UNITED STATES PATENTS 2,329,053 9/43 Jennings 20G-ll 2,370,024 2/45 Dyer 20G-88 2,459,629 l/49 Dorfman et al. 20G-116 2,526,861 10/50 Getchell 20G-116 2,620,417 l2/52 wis 20G-116 2,913,542 ll/59 Myers 200-116 FOREIGN PATENTS 334,401 l/36 Italy.

BERNARD A. GILHEANY, Primary Ext/miner.

Claims

1. A CIRCUIT BREAKER COMPRISING, IN COMBINATION, A STATIONARY CONTACT, A MOVABLE CONTACT COOPERABLE WITH SAID STATIONARY CONTACT TO OPEN AND CLOSE AN ELECTRIC CIRCUIT, AN OPERATING MECHANISM COMPRISING A RELEASABLE MEMBER AND OVERCENTER SPRING MEANS, LATCH MEANS DISPOSED ON A FIRST SIDE OF SAID OPERATING MECHANISM AND LATCHING SAID RELEASABLE MEMBER IN A NORMAL POSITION, TRIP MEANS DISPOSED ON A SIDE OF SAID OPERATING MECHANISM WHICH IS OPPOSITE SAID FIRST SIDE, MEANS OPERATIVELY CONNECTING SAID TRIP MEANS TO SAID LATCH MEANS, UPON THE OCCURENCE OF CERTAIN ABNORMAL CURRENT CONDITIONS, SAID TRIP MEANS AUTOMATICALLY OPERATING THROUGH SAID CONNECTING MEANS TO MOVE SAID LATCH MEANS TO EFFECT RELEASE OF SAID RELEASABLE MEMBER, AND SAID RELEASABLE MEMBER WHEN RELEASED MOVING TO OPERATE SAID OVERCENTER SPRING MEANS TO EFFECT OPENING OF SAID CONTACTS.