US3500275A - Automatic circuit breakers - Google Patents

Automatic circuit breakers Download PDF

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US3500275A
US3500275A US712042A US3500275DA US3500275A US 3500275 A US3500275 A US 3500275A US 712042 A US712042 A US 712042A US 3500275D A US3500275D A US 3500275DA US 3500275 A US3500275 A US 3500275A
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Prior art keywords
contact
circuit breaker
lever
contact arm
toggle
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US712042A
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John J Oravec
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CHALLENGER ACQUISITION Corp
CHALLENGER DPT Corp
CHALLENGER FUSE Corp
CHALLENGER LIC Corp
PROVIDENT INDUSTRIES Inc
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Federal Pacific Electric Co
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Assigned to CHALLENGER ACQUISITION CORPORATION, CHALLENGER DPT CORPORATION, CHALLENGER FUSE CORPORATION, CHALLENGER LIC CORPORATION reassignment CHALLENGER ACQUISITION CORPORATION ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: FEDERAL PACIFIC ELECTRIC COMPANY
Assigned to PROVIDENT INDUSTRIES, INC. reassignment PROVIDENT INDUSTRIES, INC. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: AMERICAN CIRCUIT BREAKER CORPORATION, FORMERLY AMERICAN PROPERTIES CORPORATION, BY WHEELER FINANCIAL SERVICES, AS TRUSTEE
Assigned to PROVIDENT INDUSTRIES, INC. reassignment PROVIDENT INDUSTRIES, INC. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: AMERICAN CIRCUIT BREAKER CORPORATION BY WHEELER FINANCIAL SERVICES, TRUSTEE
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/10Operating or release mechanisms
    • H01H71/50Manual reset mechanisms which may be also used for manual release
    • H01H71/52Manual reset mechanisms which may be also used for manual release actuated by lever
    • H01H71/529Manual reset mechanisms which may be also used for manual release actuated by lever comprising an electroresponsive element forming part of the transmission chain between handle and contact arm
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H2300/00Orthogonal indexing scheme relating to electric switches, relays, selectors or emergency protective devices covered by H01H
    • H01H2300/046Orthogonal indexing scheme relating to electric switches, relays, selectors or emergency protective devices covered by H01H using snap closing mechanisms

Definitions

  • One end of a resilient lever acts on the contact arm at a point between the pivot of the actuator and the main pivot of the contact arm itself.
  • the resilient le-ver extends over a fulcrum; and the compression coil spring acts between the opposite end of the resilient lever and part of the operating handle.
  • the handle and its connecting toggle link gradually approach their erect condition and the handle applies progressively increasing compression on the coil spring which in turn transmits contact-closing bias to the contact arm via the resilient lever.
  • My present invention relates to automatic circuit breakers and more particularly to circuit breakers of the type in which an actuator is pivotally carried by the movable contact member and is latched thereto, under the control of a current-responsive device, and includes a manual operator to open and close the circuit breaker.
  • This invention relates to circuit breakers of the type in Patent No. 2,811,605 issued Oct. 29, 1957 to P. M. Christensen et al. and to Re. 24,388 issued Nov. 5, 1957, to P. M. Christensen on original Patent No. 2,789,179.
  • a widely known and highly successful type of circuit breaker mechanism involves an elongated contact arm that is pivoted near it center, that carries a moving contact at one extremity and that has an operating linkage pivoted to its opposite extremity.
  • This type of circuit breaker has seen enormous commercial success in the form shown in the above patent to Christensen et al.
  • the operating linkage includes a pivoted operating handle, a pivoted actuator and a coupling link between the handle and the actuator.
  • the handle and the link form an operating toggle.
  • the contact arm carries a current responsive latching device that normally arrests the actuator so that the operating toggle consisting of rigid elements provides positive driving effort for operating the contact arm in the contact-closing direction and for holding the contact closed so long as the actuator is latched.
  • An object of the present invention resides in providing contact pressure in the foregoing type of circuit breaker mechanism.
  • a still further object of the present invention resides in providing a circuit breaker mechanism having a novel construction for applying resilient contact pressure, and for effecting snap-closing of the contacts during progressive erecting motion of the toggle, as well as effecting high speed opening of the contacts upon release of the overcurrent latch of the circuit breaker.
  • an illustrative circuit breaker for achieving the foregoing objects includes an elongated contact arm pivoted near its midpoint, carrying a movable contact at one end for cooperation with a companion contact, carrying a current responsive latch, and carrying a pivoted actuator that is normally restrained by the latch.
  • the actuator is operated into latch-pressure engagement with the current-responsive latch.
  • the latch and the contact arm are operated as a unit in the contact closing direction by a toggle that becomes erect and then slightly overset when the contacts are closed.
  • the toggle includes a pivoted operating handle as one link and a second link from the operating handle to the actuator.
  • the circuit breaker is entirely conventional.
  • the following particular means is provided for developing contact pressure when the circuit breaker is closed, and for accommodating the overtravel of the toggle during the contact closing motion and after the contacts have actually made contact, so as to apply and maintain resilient contact pressure, and further to provide powerful contact-opening bias that is instantly available when the actuator is released in response to an overcurrent.
  • the same parts additionally provide a novel means for causing snap-closing of the contacts.
  • the resilient means that achieves all of the foregoing purposes include a compression coil spring and a resilient lever. One end of the resilient lever acts on the contact arm at a point between the pivot of the actuator and the main pivot of the contact arm itself.
  • the resilient lever extends over a fulcrum; and the compression coil spring acts between the opposite end of the resilient level and a part of the operating handle.
  • the handle and its connecting toggle link gradually approach their erect condition and, during this motion, the handle applies progressively increasing compression on the coil spring which in turn transmits contact-closing bias to the contact arm via the resilient lever.
  • the main pivot of the contact arm has a limited latitude of movement in a guide slot in the casing of the circuit breaker. As the toggle approaches its erect condition the contacts actually engage; and during the further motion of the toggle into its erect condition and slightly beyond, the coil spring and the spring lever apply and maintain resilient contact pressure.
  • An end part of the resilient lever is arranged to move toward a fixed stop in the casing during the contact closing motion. This stop is reached just before the contacts engage.
  • the contact-closing operation of the operating toggle continues, while the compression in the coil spring increases.
  • the spring lever which was arrested by the stop has been withdrawn as a result of shifting of the contact arm and shifting of the resilient lever. This results in snap-closing of the contacts.
  • FIG. 1 is a lateral view of a circuit breaker embodying features of the invention, with one side cover removed to show the internal construction;
  • FIG. 2 is a fragmentary illustration of the mechanism of FIG. 1 in the normal, open condition of the circuit breaker;
  • FIG. 3 is another fragmentary view of the operating mechanism just before closing of the contacts
  • FIG. 4 is a still further fragmentary view of the operating mechanism after automatic opening of the contacts in response to an overload, the operating handle being forcibly retained in its on position to illustrate trip-free operation;
  • FIGS. 5 and 6 are plan and lateral views, respectively, of a resilient member forming part of the mechanism in FIGS. 1 to 4;
  • FIG. 7 is a fragmentary cross section of part of the mechanism as viewed from the section line 7-7 in FIG. 1.
  • FIG. 1 there is shown a circuit breaker of the form generally illustrated in US. Patent No. 2,811,605 Christensen et al., modified as indicated below to constitute the presently preferred embodiment of this invention.
  • the illustrated circuit breaker has a two-part sandwich casing 10 of molded insulation, the front cover being removed in FIG. 1 for clarity.
  • the circuit breaker includes a first terminal 12 having a stationary contact 14 that cooperates with a movable contact 16 united to elongated contact arm 18.
  • a rigid pivot pin 20 extends through the contact arm and is preferably fixed to it. Pin 20 is free to move through a limited distance along a path that slants slightly, downward to the right in FIG. 1, but is confined against right-to-left movement.
  • a member 26 is carried by an insulated pivot 28 at the end of arm 18 remote from contact 16.
  • Member 26 includes an ambient temperature compensating bimetal 26a that is pivoted at its upper end and slidable lengthwise at the lower end of member 26, providing a latching point.
  • Member 26 and its bimetal 26a form what is commonly called an actuator or a bell crank.
  • a bimetal 30 is united at its left extremity to contact arm 18 and its right end forms a latch for an ambient compensating bimetal 26a.
  • Flexible conductive braid 32 connects the right-hand end of bimetal 30 to a resilient plug-in terminal 34 secured in casing 10.
  • Bimetal 30 forms a current-responsive latch for actuator 26, deflecting downward in the event of self-heating due to current flowing through the bimetal.
  • a rigidly mounted soft iron pole-piece 36 is efiective to deflect bimetal 30 downward in case of sudden bursts of short-circuit current.
  • Contact arm 18, actuator 26 and bimetal 30 form a triangular unit that is operated clockwise by a U-shaped wire member 38 whose legs form pivots in actuator 26 and in an arm 40a of operating handle 40.
  • Link 38 and arm 4011 form a toggle that has a knee 42. In FIG. 1, this knee is above a straight line between pivots 40b of the handle and pivot 44 in the actuator, and is said to be overcentered or'over-set.
  • Handle 40 is arrested by casing 10 against further clockwise movement, and thus toggle 38, 40a is arrested in its over-set configuration, as illustrated. In this erect condition (although slightly over-set), the toggle holds the circuit breaker closed.
  • a spring lever 46 has a hooked portion 46a (see also FIGS. 5 and 6) engaged about a pin 48 fixed in contact arm 18.
  • Spring lever 46 has a slot 460 that receives contact arm-18, so that the two legs of the spring lever engage extremities of pin 48 at the opposite sides of arm 18.
  • spring lever 46 At its opposite end spring lever 46 has a dimple 46b that is received in the lower end of compression coil spring 50.
  • the opposite end of spring 50 bears against handle 40 and is loc ted by a handle projection 40c.
  • Compression spring 50 acts along a line that is nearly through the pivot 40b of handle 40.
  • a small component of spring bias acts on handle 40 in the clockwise direction, inadequate to overcome the bearing friction of the handle and the force applied to the handle by the toggle 40a, 38.
  • Coil spring 50 also applies considerable force to lever 46.
  • Spring lever 46 is curved near its middle so as to rock about bosses 24.
  • downward pressure of coil spring 50 is converted to upward bias at pin 48.
  • This upward bias urges the triangular unit of arm 18, actuator 26 and bimetal 30 upward about pivot 44, for applying resilient pressure between contacts 14 and 16.
  • main pivot 20 of contact arm 18 is spaced from the upper and lower extremities of passages 22. See also FIG. 7.
  • Bimetal 30 deflects downward when heated.
  • the circuit breaker can be operated manually to open the contacts, simply by moving handle 40 f; om the position in FIG. '1 to that in FIG. 2.
  • handle 40 is manually moved to the left, from its position in FIG. 2 to that of FIG. 1.
  • the toggle 38, 40a is progressively moved from its collapsed condition in FIG. 2 toward its erect position, ultimately to be slightly overset as in FIG. 1.
  • movable contact 16 moves toward companion contact 14. If the contacts were to be moving gradually at the time that they are nearly closed, then there is danger of teasing of the contacts occurring and correspondingly there is danger of contact welding or contact-erosion due to arcing.
  • the illustrated circuit breaker avoids this danger, in a manner now to he described.
  • Spring lever 46 has an abutment end 46d that is cooperable with a projecting ledge 54 formed integral with the casing. During the closing motion of the mechanism as described above, abutment 46d engages ledge 54 so as to be arrested. and an arm extension 18a engages lever 46 so that closing travel of contact 16 is arrested. This occurs prior to the full-erection of toggle 38, 40a. Continued operation of the toggle forces the right-hand extremity of lever 18 downward and slightly to the right as pin 20 moves in its passage 22. Furthermore, resilient lever 46 is drawn downward, and is pulled to the right over bosses 24. This action shifts abutment 46d to the right of shoulder 54, allowing projection 18a and contact arm 18 to snap upward and close the contacts.
  • Spring 50 and lever 46 occupy readily available space in the casing without danger of interference in operation of other parts, and they perform the several functions of guarding against tease-closing of the contacts, providlng a means for spring-powered closing of the contacts and for biasing the contacts together when closed, and a means for spring-powered opening of the contacts in relatively simple and efiective mechanism for the purposes described.
  • a still further advantage of lever 46 and compression spring 50 is that it applies upward bias to contact arm 18 in all phases of the circuit breaker operation, a distinctive advantage in the circuit breaker disclosed in an application filed concurrently herewith, March 11, 1968, Ser. No. 712,041, by Thomas M. Cole.
  • circuit breaker described in detail above and shown in the accompanying drawings represents the presently preferred embodiment of the invention in its various aspects. However, it will be appreciated that those skilled in the art will readily introduce modifications and will find varied application of the novel features; and consequently the invention should be construed broadly in accordance with its full spirit and scope.
  • An automatic circuit breaker having an elongated movable contact arm carrying a movable contact, a companion contact engageable by said movable contact for closing a circuit through the circuit breaker, a current responsive latch carried by the movable contact arm, operating means including an actuator pivotally mounted on said contact arm and operatively connected thereto under control of said latch, for closing the circuit breaker, a pivot on which the movable contact arm is mounted and bearing means for said pivot accommodating limited movement of the pivot transverse to the pivotal axis, and spring means for biasing the contact arm in the contact closing direction in the closed condition of the circuit breaker and for biasing the contact arm in the open direction in the open condition of the circuit breaker and when it is unlatched, said spring means comprising a lever having one end acting on said contact arm between said pivot and said actuator and a compression coil spring acting on the opposite end of said lever, and means providing a fulcrum for said lever between the ends of the lever.
  • said operating means includes a toggle comprising an operating handle and a connecting toggle link between said handle and said actuator, said compression spring having one end thereof acting against said lever and the opposite end thereof acting against said handle in the resetting direction when said toggle is buckled.
  • a circuit breaker in accordance with claim 1 further including an enclosure of molded insulation having complementary inward-extending bosses forming the fulcrum of said lever.
  • a circuit breaker in accordance with claim 1 further including an enclosure of molded insulating having complementary inward-extending bosses forming the fulcrum of said lever, said bosses having elongated recesses for guiding said pivot through limited movement transverse of the length of said elongated contact arm.
  • a circuit breaker in accordance with claim 6 wherein. said enclosure includes an abutment on the contact arm engageable with the extremity of said lever adjacent said compression spring and wherein said enclosure includes an abutment engageable by an end portion of said lever during the closing motion of the contact arm but prior to contact engagement, said contact arm being operable to shift the lever free of engagement with said casing abutment prior to completion of a contact-closing operation, the contact arm then being operated by said spring and lever abruptly for snap-closing the contacts.
  • a circuit breaker in accordance with claim 1 further. including an abutment engageable by a portion of said lever adjacent said compression spring, said extremity of the lever being arranged to obstruct a closing motion of the contact arm prior to completion of the contact closing operation of said operating means, operation of said operating means thereafter causing said extremity to shift free of said abutment, freeing the contact arm for snap-closing the contacts under the influence of said spring and lever.

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Description

March 10, 1-970 J. J. oRAvEc AUTOMATIC CIRCUIT BREAKERS Filed March 11. 1968 INVENTOR John J. Omvec ATTORNEY United States Patent C) 3,500,275 AUTOMATIC CIRCUIT BREAKERS John J. Oravec, Union, N.J., assignor to Federal Pacific Electric Company, a corporation of Delaware Filed Mar. 11, 1968, Ser. No. 712,042 Int. Cl. H01h 71/16 US. Cl. 337-75 8 Claims ABSTRACT OF THE DISCLOSURE An automatic circuit breaker having an elongated movable contact arm. A current responsive latch and an actuator are carried by the movable contact arm. One end of a resilient lever acts on the contact arm at a point between the pivot of the actuator and the main pivot of the contact arm itself. The resilient le-ver extends over a fulcrum; and the compression coil spring acts between the opposite end of the resilient lever and part of the operating handle. During the closing operation, the handle and its connecting toggle link gradually approach their erect condition and the handle applies progressively increasing compression on the coil spring which in turn transmits contact-closing bias to the contact arm via the resilient lever.
My present invention relates to automatic circuit breakers and more particularly to circuit breakers of the type in which an actuator is pivotally carried by the movable contact member and is latched thereto, under the control of a current-responsive device, and includes a manual operator to open and close the circuit breaker.
This invention relates to circuit breakers of the type in Patent No. 2,811,605 issued Oct. 29, 1957 to P. M. Christensen et al. and to Re. 24,388 issued Nov. 5, 1957, to P. M. Christensen on original Patent No. 2,789,179. A widely known and highly successful type of circuit breaker mechanism involves an elongated contact arm that is pivoted near it center, that carries a moving contact at one extremity and that has an operating linkage pivoted to its opposite extremity. This type of circuit breaker has seen enormous commercial success in the form shown in the above patent to Christensen et al. The operating linkage includes a pivoted operating handle, a pivoted actuator and a coupling link between the handle and the actuator. The handle and the link form an operating toggle. The contact arm carries a current responsive latching device that normally arrests the actuator so that the operating toggle consisting of rigid elements provides positive driving effort for operating the contact arm in the contact-closing direction and for holding the contact closed so long as the actuator is latched. An object of the present invention resides in providing contact pressure in the foregoing type of circuit breaker mechanism.
When the operating handle and the connecting link are operated as a toggle for closing the circuit breaker, the toggle gradually moves from a collapsed condition to an erect condition at which time the contacts are to be closed. It is desirable although not essential that the gradual motion of the toggle shall not cause gradual meeting of the moving contact with the companion contact of the circuit breaker, because such engagement coud result in teasing of the contacts. That condition can lead to welding and consequently to failure of the circuit breaker. The above Patent No. 2,811,605 discloses a means for avoiding the gradual or tease-closing of the contacts during the progressive motion of the toggle into erect condition. An object of the present invention resides in providing a novel toggle-operated circuit breaker which avoids tease-closing of the contacts in a new and effective manner.
3,500,275 Patented Mar. 10, 1970 A still further object of the present invention resides in providing a circuit breaker mechanism having a novel construction for applying resilient contact pressure, and for effecting snap-closing of the contacts during progressive erecting motion of the toggle, as well as effecting high speed opening of the contacts upon release of the overcurrent latch of the circuit breaker.
In the description that follows, an illustrative circuit breaker for achieving the foregoing objects includes an elongated contact arm pivoted near its midpoint, carrying a movable contact at one end for cooperation with a companion contact, carrying a current responsive latch, and carrying a pivoted actuator that is normally restrained by the latch. The actuator is operated into latch-pressure engagement with the current-responsive latch. Thereafter the actuator, the latch and the contact arm are operated as a unit in the contact closing direction by a toggle that becomes erect and then slightly overset when the contacts are closed. The toggle includes a pivoted operating handle as one link and a second link from the operating handle to the actuator. To this extent, the circuit breaker is entirely conventional. In the illustrative novel circuit breaker the following particular means is provided for developing contact pressure when the circuit breaker is closed, and for accommodating the overtravel of the toggle during the contact closing motion and after the contacts have actually made contact, so as to apply and maintain resilient contact pressure, and further to provide powerful contact-opening bias that is instantly available when the actuator is released in response to an overcurrent. The same parts additionally provide a novel means for causing snap-closing of the contacts. The resilient means that achieves all of the foregoing purposes include a compression coil spring and a resilient lever. One end of the resilient lever acts on the contact arm at a point between the pivot of the actuator and the main pivot of the contact arm itself. The resilient lever extends over a fulcrum; and the compression coil spring acts between the opposite end of the resilient level and a part of the operating handle. During the closing operation, the handle and its connecting toggle link gradually approach their erect condition and, during this motion, the handle applies progressively increasing compression on the coil spring which in turn transmits contact-closing bias to the contact arm via the resilient lever. The main pivot of the contact arm has a limited latitude of movement in a guide slot in the casing of the circuit breaker. As the toggle approaches its erect condition the contacts actually engage; and during the further motion of the toggle into its erect condition and slightly beyond, the coil spring and the spring lever apply and maintain resilient contact pressure. In case of an overcurrent the current-responsive latch releases the actuator; and when that occurs the end of the contact arm remote from the contact is no longer restrained by the operating toggle, with the result that the contact closing and biasing spring means becomes instantly available to drive the contact arm about the main pivot in the contact-opening direction.
An end part of the resilient lever is arranged to move toward a fixed stop in the casing during the contact closing motion. This stop is reached just before the contacts engage. The contact-closing operation of the operating toggle continues, while the compression in the coil spring increases. Just before the toggle is erect, the spring lever which was arrested by the stop has been withdrawn as a result of shifting of the contact arm and shifting of the resilient lever. This results in snap-closing of the contacts.
The nature of the invention and its further novel features and advantages will be more fully appreciated from the detailed description of the illustrative embodiment which is shown in the accompanying drawings. In the drawings:
FIG. 1 is a lateral view of a circuit breaker embodying features of the invention, with one side cover removed to show the internal construction;
FIG. 2 is a fragmentary illustration of the mechanism of FIG. 1 in the normal, open condition of the circuit breaker;
-- FIG. 3 is another fragmentary view of the operating mechanism just before closing of the contacts;
FIG. 4 is a still further fragmentary view of the operating mechanism after automatic opening of the contacts in response to an overload, the operating handle being forcibly retained in its on position to illustrate trip-free operation;
FIGS. 5 and 6 are plan and lateral views, respectively, of a resilient member forming part of the mechanism in FIGS. 1 to 4; and
FIG. 7 is a fragmentary cross section of part of the mechanism as viewed from the section line 7-7 in FIG. 1.
Referring now to the drawings and in particular to FIG. 1, there is shown a circuit breaker of the form generally illustrated in US. Patent No. 2,811,605 Christensen et al., modified as indicated below to constitute the presently preferred embodiment of this invention. The illustrated circuit breaker has a two-part sandwich casing 10 of molded insulation, the front cover being removed in FIG. 1 for clarity. The circuit breaker includes a first terminal 12 having a stationary contact 14 that cooperates with a movable contact 16 united to elongated contact arm 18. A rigid pivot pin 20 extends through the contact arm and is preferably fixed to it. Pin 20 is free to move through a limited distance along a path that slants slightly, downward to the right in FIG. 1, but is confined against right-to-left movement. For this purpose, the ends of pin 20 move in roughly oval cavities 22 in raised bosses 24 on the inside faces of casing 10, as shown also in FIG. 7. A member 26 is carried by an insulated pivot 28 at the end of arm 18 remote from contact 16. Member 26 includes an ambient temperature compensating bimetal 26a that is pivoted at its upper end and slidable lengthwise at the lower end of member 26, providing a latching point. Member 26 and its bimetal 26a form what is commonly called an actuator or a bell crank. A bimetal 30 is united at its left extremity to contact arm 18 and its right end forms a latch for an ambient compensating bimetal 26a. Flexible conductive braid 32 connects the right-hand end of bimetal 30 to a resilient plug-in terminal 34 secured in casing 10. Bimetal 30 forms a current-responsive latch for actuator 26, deflecting downward in the event of self-heating due to current flowing through the bimetal. A rigidly mounted soft iron pole-piece 36 is efiective to deflect bimetal 30 downward in case of sudden bursts of short-circuit current.
Contact arm 18, actuator 26 and bimetal 30 form a triangular unit that is operated clockwise by a U-shaped wire member 38 whose legs form pivots in actuator 26 and in an arm 40a of operating handle 40. Link 38 and arm 4011 form a toggle that has a knee 42. In FIG. 1, this knee is above a straight line between pivots 40b of the handle and pivot 44 in the actuator, and is said to be overcentered or'over-set. Handle 40 is arrested by casing 10 against further clockwise movement, and thus toggle 38, 40a is arrested in its over-set configuration, as illustrated. In this erect condition (although slightly over-set), the toggle holds the circuit breaker closed.
A spring lever 46 has a hooked portion 46a (see also FIGS. 5 and 6) engaged about a pin 48 fixed in contact arm 18. Spring lever 46 has a slot 460 that receives contact arm-18, so that the two legs of the spring lever engage extremities of pin 48 at the opposite sides of arm 18. At its opposite end spring lever 46 has a dimple 46b that is received in the lower end of compression coil spring 50. The opposite end of spring 50 bears against handle 40 and is loc ted by a handle projection 40c. Compression spring 50 acts along a line that is nearly through the pivot 40b of handle 40. A small component of spring bias acts on handle 40 in the clockwise direction, inadequate to overcome the bearing friction of the handle and the force applied to the handle by the toggle 40a, 38. Coil spring 50 also applies considerable force to lever 46. Spring lever 46 is curved near its middle so as to rock about bosses 24. Thus, downward pressure of coil spring 50 is converted to upward bias at pin 48. This upward bias urges the triangular unit of arm 18, actuator 26 and bimetal 30 upward about pivot 44, for applying resilient pressure between contacts 14 and 16. In the configuration of the parts in FIG. 1, main pivot 20 of contact arm 18 is spaced from the upper and lower extremities of passages 22. See also FIG. 7.
Current flows through the circuit breaker from terminal 12 through contacts 14 and 16, contact arm 18, bimetal 30 and braid 32 to terminal 34. Bimetal 30 deflects downward when heated.
The upward bias at pin 48 produces a clockwise bias on actuator 26, and thus provides latch pressure. The release of actuator 26 by the bimetal cause the actuator to swing freely clock-wise. Compression spring 50, acting through spring lever 46, drives the contact arm bodily upward until pin 20 reaches the top of passages 22 and thereafter spring 50 drives contact arm 18 counterclockwise about pin 20 to open the circuit breaker, as illustrated in FIG. 4. In FIG. 4, handle 40 is considered to be hand-held in its on position (as represented by the arrow). Otherwise spring 50 would become effective to snap the handle to its opposite extreme position. Then handle 40 is released, the handle assumes the position of FIG. 2; and when this occurs arm 40a draws link 38 to the left, to reset actuator 26 opposite the end of bimetal 30. In the open condition of the circuit breaker both in FIG. 2 and in FIG. 4, contact arm 18 is limited against further motion in the contact-opening direction by engagement with a projection 52 of casing 10.
The circuit breaker can be operated manually to open the contacts, simply by moving handle 40 f; om the position in FIG. '1 to that in FIG. 2. To close the circuit breaker, handle 40 is manually moved to the left, from its position in FIG. 2 to that of FIG. 1. During this motion of the handle, the toggle 38, 40a is progressively moved from its collapsed condition in FIG. 2 toward its erect position, ultimately to be slightly overset as in FIG. 1. During this motion, movable contact 16 moves toward companion contact 14. If the contacts were to be moving gradually at the time that they are nearly closed, then there is danger of teasing of the contacts occurring and correspondingly there is danger of contact welding or contact-erosion due to arcing. The illustrated circuit breaker avoids this danger, in a manner now to he described.
Spring lever 46 has an abutment end 46d that is cooperable with a projecting ledge 54 formed integral with the casing. During the closing motion of the mechanism as described above, abutment 46d engages ledge 54 so as to be arrested. and an arm extension 18a engages lever 46 so that closing travel of contact 16 is arrested. This occurs prior to the full-erection of toggle 38, 40a. Continued operation of the toggle forces the right-hand extremity of lever 18 downward and slightly to the right as pin 20 moves in its passage 22. Furthermore, resilient lever 46 is drawn downward, and is pulled to the right over bosses 24. This action shifts abutment 46d to the right of shoulder 54, allowing projection 18a and contact arm 18 to snap upward and close the contacts.
Spring 50 and lever 46 occupy readily available space in the casing without danger of interference in operation of other parts, and they perform the several functions of guarding against tease-closing of the contacts, providlng a means for spring-powered closing of the contacts and for biasing the contacts together when closed, and a means for spring-powered opening of the contacts in relatively simple and efiective mechanism for the purposes described. A still further advantage of lever 46 and compression spring 50 is that it applies upward bias to contact arm 18 in all phases of the circuit breaker operation, a distinctive advantage in the circuit breaker disclosed in an application filed concurrently herewith, March 11, 1968, Ser. No. 712,041, by Thomas M. Cole.
The circuit breaker described in detail above and shown in the accompanying drawings represents the presently preferred embodiment of the invention in its various aspects. However, it will be appreciated that those skilled in the art will readily introduce modifications and will find varied application of the novel features; and consequently the invention should be construed broadly in accordance with its full spirit and scope.
I claim:
1. An automatic circuit breaker having an elongated movable contact arm carrying a movable contact, a companion contact engageable by said movable contact for closing a circuit through the circuit breaker, a current responsive latch carried by the movable contact arm, operating means including an actuator pivotally mounted on said contact arm and operatively connected thereto under control of said latch, for closing the circuit breaker, a pivot on which the movable contact arm is mounted and bearing means for said pivot accommodating limited movement of the pivot transverse to the pivotal axis, and spring means for biasing the contact arm in the contact closing direction in the closed condition of the circuit breaker and for biasing the contact arm in the open direction in the open condition of the circuit breaker and when it is unlatched, said spring means comprising a lever having one end acting on said contact arm between said pivot and said actuator and a compression coil spring acting on the opposite end of said lever, and means providing a fulcrum for said lever between the ends of the lever.
2. A circuit breaker in accordance with claim 1, wherein said operating means includes a toggle comprising an operating handle and a connecting toggle link between said handle and said actuator, said compression spring having one end thereof acting against said lever and the opposite end thereof acting against said handle in the resetting direction when said toggle is buckled.
3. A circuit breaker in accordance with claim 1 wherein said lever is of resilient metal.
4. A circuit breaker in accordance with claim 1 further including an enclosure of molded insulation having complementary inward-extending bosses forming the fulcrum of said lever.
5. A circuit breaker in accordance with claim 1, further including an enclosure of molded insulating having complementary inward-extending bosses forming the fulcrum of said lever, said bosses having elongated recesses for guiding said pivot through limited movement transverse of the length of said elongated contact arm.
.6. A circuit breaker in accordance with claim .5 wherein said lever is resilient.
.7. A circuit breaker in accordance with claim 6 wherein. said enclosure includes an abutment on the contact arm engageable with the extremity of said lever adjacent said compression spring and wherein said enclosure includes an abutment engageable by an end portion of said lever during the closing motion of the contact arm but prior to contact engagement, said contact arm being operable to shift the lever free of engagement with said casing abutment prior to completion of a contact-closing operation, the contact arm then being operated by said spring and lever abruptly for snap-closing the contacts.
8.- A circuit breaker in accordance with claim 1 further. including an abutment engageable by a portion of said lever adjacent said compression spring, said extremity of the lever being arranged to obstruct a closing motion of the contact arm prior to completion of the contact closing operation of said operating means, operation of said operating means thereafter causing said extremity to shift free of said abutment, freeing the contact arm for snap-closing the contacts under the influence of said spring and lever.
References Cited UNITED STATES PATENTS 2,789,179 4/ 1957 Christensen 33759 2,811,604 10/1957 Cole et al. 33753 2,811,605 10/1957 Christensen et a1. 337-53 BERNARD A. GIL-HEANY, Primary ,Examiner R. L. COHRS, Assistant Examiner US. Cl. X.R. 33753, 59
US712042A 1968-03-11 1968-03-11 Automatic circuit breakers Expired - Lifetime US3500275A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3848213A (en) * 1973-10-15 1974-11-12 Therm O Disc Inc Time delay relay
US4375628A (en) * 1981-10-09 1983-03-01 Federal Pacific Electric Company Circuit breaker
US4806899A (en) * 1987-04-20 1989-02-21 Airpax Corporation Thermal circuit breaker
US4862131A (en) * 1988-10-11 1989-08-29 Square D Company Trip crossbar translation to prevent bimetal overstressing in a circuit breaker

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2789179A (en) * 1951-04-17 1957-04-16 Fed Electric Prod Co Automatic circuit breakers
US2811604A (en) * 1953-12-11 1957-10-29 Fed Electric Prod Co Automatic circuit breakers
US2811605A (en) * 1953-12-11 1957-10-29 Fed Electric Prod Co Circuit breaker

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2789179A (en) * 1951-04-17 1957-04-16 Fed Electric Prod Co Automatic circuit breakers
US2811604A (en) * 1953-12-11 1957-10-29 Fed Electric Prod Co Automatic circuit breakers
US2811605A (en) * 1953-12-11 1957-10-29 Fed Electric Prod Co Circuit breaker

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3848213A (en) * 1973-10-15 1974-11-12 Therm O Disc Inc Time delay relay
US4375628A (en) * 1981-10-09 1983-03-01 Federal Pacific Electric Company Circuit breaker
US4806899A (en) * 1987-04-20 1989-02-21 Airpax Corporation Thermal circuit breaker
JP2582408B2 (en) 1987-04-20 1997-02-19 エアパックス コーポレーション Thermal breaker
US4862131A (en) * 1988-10-11 1989-08-29 Square D Company Trip crossbar translation to prevent bimetal overstressing in a circuit breaker

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