CA1114867A - Snap action circuit breaker - Google Patents

Abstract

SNAP ACTION CIRCUIT BREAKER

ABSTRACT OF THE DISCLOSURE

Disclosed is a snap action circuit breaker with a compact one piece steel frame in a two part, telescoping molded circuit breaker case. The compact construction is combined with a symmetrical toggle actuator to provide a pleasing appearance suitable for mounting at readily accessible and visible locations on the front of an instrument panel.
variety of handle constructions are usable with the same basic mechanism. By providing a snap actuated contact construction with substantial overcurrent trip delay the device combines the best features of modern manual switches and circuit breakers so that it is in effect a manual switch with nuisance free over-current trip protection.

Description

4B~ 7 This invention rela-tes to an electrical circui-t breaker in which the contacts open during overload with a snap action and when manually operated by the circuit breaker handle are both opened and closed with a snap action. More particularly, the invention is directed to a simplified more compact and improved circuit brea~er of this type incorporating an over-load current coil and armature tripping mechanism.
A snap action cireuit breaker is disclosed in assignee's U.S. Patent No. 3,806,8~8. In this device a toggle mechanism is tripped by the attraction of an armature to an electro-magnet when the current through the electromagnet eoil exceeds a predetermined value. Coupled to the movable contact of the - eireuit breaker is an over eenter spring so that upon tripping, the contacts open with a positive snap action to minimize contact areing.
The over center spring also acts on the movable contaet when the eontaets of the eireuit breaker are opened or closed by way of the toggle handle. This snap aetion opening and elosing of the circuit breaker contacts during manual operation has the advantage that it makes it impossible for anyone to "tease" the contacts in such a way as to damage the circuit breaker.
The present invention is directed to a snap action circuit breaker of this general type but one which is of simplified, more compact construction, is more attractive in appearance, and ~ne which may be utilized with a variety of different handle constructions. The eircuit breaker of the present in-vention is particularly constructed to be small and more pleas-ing in appearance so that it may be used in more visible locations ~k ., such as on instrument panels and the li]ce, and since it opens and closes during manual operation with a snap action, it may be manually operated much in the manner o~ a conven-tional electrical switch. It is designed to combine aspects of conventional electrical switch operation with electromag-netic type of current protection.
This is brought about by utilizing a novel, one piece frame construction for the operating mechanism in combination with a single basic symmetrical case and linkage assembly compatible with a variety of operating handles. The sym-metrical construction provides a pleasing appearance as does the availability of various operating handles. Additionally, di ferent handle constructions may give different manual motions to the linkage mechanism such as conventional two position on-off or a push to open, push to close actuated operation.
: It is therefore, an object of the present invention to provide an improved snap action circuit breaker.
In accordance with a broad aspect, the invention relates to a circuit breaker, comprising:
an insulated housing; a frame located in said insulated housing; an overcurrent sensor mounted to said frame in said housing; a stationary contact and a movable contact in said housing, a latch mechanism coupled to said fra~eand engageable by said overcurrent sensor and adapted to be tripped by said sensor in response to a sensed overcurrent;
and a flat blade member having said movable contact mounted to one end portion thereof; said circuit breaker being charac-terized by: a movable carrier coupled to said latch mechanism and movable between first and second positions in response to movement of said latch mechanism; said carrier comprising:
C a generally flat top plate, a pair of side plates integral with and extending downwardly from said top plate, a first pair of tabs integral with and extending upwardly from the front portion of said top plate for movably coupling said latch mechanism to said carrier, a back end portion integ:ral with and extending down-wardly from said top plate and having a recess for pivotally receiving the other end portion of said flat blade member, and a second pair of tabs integral with and extendiny laterally outwardly from the bottom portion of said side plate and an over-center spring coupled at one end with said . blade member and at i.ts other end to said frame Lsaid frame also having a pair of pivot mounts located below and forward of said spring mounting means for pivotally receiving said second pair of tabs of said movable carrier.
These and further ohjects and advantages of the invention will be more apparent upon reference to the following specifi~
cation, claims and appended drawings wherein Figure 1 is a side elevation o~ a circuit breaker constructed ln accordance with the present invention and incorporating a toggle type handle.
Figure 2 is a view showing principal portions of the internal operating mechanism of the circuit breaker of Figure 1 : with the contacts in the manual open position.
Figure 3 is an end ~iew showing the structure of Figure 2.
Figure 4 is a view similar to Figure 2 showing the circuit breaker contacts in the manually closed position.
Figure 5 is a view similar to Figures 2 and 4 showing the circuit breaker mechanism when the contacts are in the C tripped open position.

Figure 6 is a perspective view of the over center spring assembly for the movable contact which produces the snap action.
Figure 7 is a perspective view of the latch mechanism of the circuit breaker.
Figure 8 is a side view of the cam link forming a portion of the latch mechanism o:E Figure 7.
Figure 9 is an edge view of the cam link of Figure 8.
Figure 10 is a side view of the housing link forming the other collapsible link of the mechanism of Figure 7.
: Figure 11 is a side edge view of the housing link of Figure 10.
Figure 12 is a view of the housing link taken from the side opposite to that of Figure 10.

~' - 3a -Figure 13 is a top edge view of the houging link of Figures lO through 12.
Figure 14 is a side view of the handle link forming a part of the mechanism of E'igures 2 through 5.
Figure 15 is an end view of the handle link of Figure 14, Figure 16 is a side view of the one piece frame forming a ma~or component of the mechanism illustrated in Figures 2 through 5.
Figure 17 is a side edge view of the frame of Figure 16.
Figure 18 is a top edge view of the frame.
Figure l9 is a side view of the armature illustrated in Figures 2 through 5.
Figure 20 is a front view of the armature of Figwre l9.
Figure 21 is a partial top view of the armature.
Figure 22 is a view of the armature from the other side ! relative to Figure l9.
Figure 23 is a front view with a portion in section of the circuit breaker of Figure l showing the manual toggle construc~
tion.
Figure 24 is a partial cross section at right angles to the view of Figure 23, again showing the toggle handle operatin~
~ mechanism.
; Figure 25 is an exploded view of the toggle handle embodi-ment of the present invention illustrating how some of the parts fit together.
Figure 26 is a front elevation of the lower poxtion of the circuit breaker case incorporating the circuit breaker terminal.
Figure 27 is an end view of the lower case section of Figure 26.
Figure 28 is a partial front elevation of a modified circuit breaker case constructed in accordance with the present invention and .inco.rporatiny a rocker type handle.
Figure 2g is a partial cross section -through the modified construction of Figure 28 showing the manner of connecting the rocker handle to the handle link.
S Figu.re 30 is a partial cross section taken along lines 30-30 of Figure 29.
Figu:re 31 is a front plan view of a lamp bracket forminy a part of the structure of Figures 29 and 30.
Figure 32 is an end view of the lamp bracket of Figure 31.
Figure 33 is a top plan view of the lamp bracket of Figure 31.
Figure 34 is a partial cross section showing a step in the process of attaching the rocker handle to the circuit break.er case.
Figure 35 is a view similar to Figure 34 showing the rocker handle mounted in the case and engaging a handle link.
Figure 36 is a front elevation of a further modified embodiment in accordance with the present invention showing a push button type handle for the circuit breaker.
Figure 37 is a front elevation with a part in section show-ing the handle link in the "on" position.
Figure 38 is a view similar to Figure 37 showing the handle link in the "off" position.
Figure 39 is a front elevation of the push button type handle of the embodiment of Figure 36.
Figure 40 is a bottom plan view of the handle of Figure 39.
Figure 41 is a fron-t view of the handle illustrating the engagement of the actuator blade of the handle with a handle link.

Figure ~2 is a front eleva-tion o.E the spring support for the spring forming a part of the handle illus-trated in Figures 39 through ~1.
Figure 43 is a bottom plan view of the spring support of Figure 42.
Figure 43A is a cross section taken along the line 43A-43A
of Figure 43.
Figure 44 is an enlarged front view of the actuator blade shown as part of the assembly in Figure 41.
Figure 45 is an enlarged side view of -the actuator blade of Figure 44.
Figure 46 is a cross section through the center of the push button of the embodiment of Figure 36.
Figure 47 is a bottom plan view of the push button of . 15 Figure 46.
Figure 48 is a diagrammatic view illus-trating a step in the assembly of the push button with the circuit breaker case and, Figure 49 is an exploded view showing the electrical lamp connections for the lamp carried in the push button of the embodiment of Figure 36.
Referring to the drawings~the novel circu.it breaker of the present invention is generally indicated at 10 in Figure 1.
The circuit breaker comprises a case 12 of molded electrically insulated plastic which is formed of an upper or outer case section 14 which is open at its lower end to receive a lower portion or lower case section 16. Lower section 16 carries a pair of electrically conductive terminals 18 and 20 and has two projections on each side,such as the projections 22 and 24, which are received in corresponding slots 26 and 28 in upper l~L4~36 7 ` asin~ section 14. The upper section has -~wo cJrooves on ~ach side such as the ~rooves 30 and32 to impart more flexibility : to the upper section so that the lower section may be slipped into it until the projections 22 and 24 snap into the slots 26 and 28. Upper case section 14 includes a boss 32 from which extends a toggle type circuit breake.r handle 34.
Figure 2 is a side view show.ing the lower case half 16 and the circuit breaker trip mechanism generally indicated at 36 and illustrated in Figure 2 in the manually open position.
Figure 3 is a cross section of the mechanism of Figure 2 taken at right angles to it, ~igure 4 is a view similar to Figure 2 with the contacts in the manually closed position and Figure 5 is a similar view of the mechanism when the contacts have been tripped open by an over current. The construction is of the : 15 same general type as that disclosed in assignee's U.S. Patent 3,806,84R but is significantly improved to provide a more compact and symmetrical operating mechanism construction.
Referring to Figure 2, the mechanism 36 comprises a one piece frame 38 (shown in detail in Figures 16 through 18) upon which is mountèd an over current trip coil 40. The coil is connected to a terminal 18 by way of an electrical lead 42 and surrounds a delay tube 44 terminating in a pole piece 46 which is positioned adjacent one end of an armature 48 pivoted about a pin 50 secured to the frame 38.

Also pivoted to the frame by a pin 52, is a handle link 54 pivoted by a pin 56 at its lower end to a cam link 58. The cam - link 58 connects to a second pivotal link by a pin 60 which second ~r~

pi.votal link is generally referred to as a housing link and is indicated at 62. ~rmature ~8 at its other end on one side, carries an enlarged portion 64 which forms a counterweight for the end near the pole piece 46 and on its other side, carries a curved pro~ection 66 adapted to engage and rotate a sear 68 which permits the cam link 58 and housing link 62 to collapse relative to each other under the inEluence of a blade spring.
Contact terminal 20 is connected with a stationary contack 70 which completes a circuit through the two terminals 18 and 20 by way of a movable contact 72 mounted on and carried by a blade 74. Blade 74 is acted on by an over center spring 76 to have a snap opening and snap closing operation, the other end of the : spring being wrapped around a pin 78 secured to the frame~ The other end of blade 74, as more fully described below, is pivoted to a blade carrier 80, which is pivoted by a pin 82 to the lower end of housing link 62. The two links, namely, the cam link 5$
and the housing link 62 with the cooperating sear 68 are generally referred to as the latch mechanism. The electrical circuit is completed from the movable contact 72 by way of the blade and blade carrier, a braided wire 84 and a lead 86 to the other side of the coil.
Figure 4 shows the mechanism moved to the contacts "closed"
position with the handle link 54 having its upper end moved in a clockwise direction from the position illustrated in Figure 2.
~his link acts through the latch mechanism previously described to bring movable contact 72 into engagement with stationary contact 70 to complete the circuit between terminals 18 and 20.
Handle link 54 is rotated by a handle, as more fully described below, acting on handle link pin 88.

'7 , Figure 5 shows the circuit breaker in the tripped open position. The latch mechanism has been collapsed by engagement of the end 66 of the armature with the sear trip bar 68. Over center spring 76 has caused the contac.t 7~ to move away from contact 7~. Figure 5 illustrates the latch mechanism in the "trip free" position, that is, the contacts have opened due to an overload while the hanclle link is manually restrained in the closed posi~ion illustrated, which it assumed .in Fi~re 4.
The armature has returned under the in~luence of an armature lD spring (not shown) to a position spaced from the pole piece 46.
By manually moving the handle link 54 from the position illus-trated in Fig. 5 to the position illustrated in Figure 2, the unit becomes completely reset and ready for operation if the - fault has been removed.
Figure 6 is an enlarged perspective view of the over current contact blade assembly. Blade carrier 80 has a turned over end 90 with a tapere~ groove 92 receiving a knife edge at 94 of the blade 74 so that blade 74 pivots in groove 92. Turned over end 90 is an integral part of and extends downwardly from a flat top plate 802. A pair of upturned tabs 804 and 806 ~ are formed from the opposite end portion of top plate 802. A
; pair of side plates 808 and 810 extend downwardly from opposite sides of the top plate 802. A pair of pivot mounting tabs (only tab 812 being shown in Fig. 6) are formed from the : forward bottom parts of side plates 808 and 810. Spring 76 has one end 96 wrapped around the pin 78 and its other end received through an aperture in the blade 74. The operation of the blade and blade carrier is essentially the same as in ~,S. Patent 3,806,848 and ~ill not ~e described in further detail.

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Figure 7 is a perspective view of the collapsible l~tch mechanism, It comprises the cam link 58 and the housirlg lin~ 62.
pivoted to each other by a pin 60, When the end 66 o~ the armature, as illustrated in Figure 2, hits the trip bar, commonly called the striker bar 68, it moves this bar causing .
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( a sear pin 98, mounted in the two sides of housing link 62t to rotate. Sear pin 98 has a central portion cut away to form a semi-circular cross section and when it is rotated it releases the cam link and permits it to rotate in the direction of the arrow 100 about pin 60 relative to the housing link 62 produc-ing mechanism collapse.
Figure 8 is a side view and Fiyure 9 is a front edge view of the cam link 58. It is provided with upper and lower aper-tures 102 and 104 adapted to receive respective pivot pins, with a first cam surface 108 adapted to bear against the sear pin 98 before it is rotated and a second cam surface 106 which along with the identical surface of the opposite side of the cam link, engages the slot in the sear pin 98. This prevents excessive lateral movement of the sear pin and thereby keeps it captive in the housing link, both in the latched position and when the cam link is rotated in a counterclockwise direction indicated by the arrow 100 in Figure 7.
Figure 10 is a side view and Figure 11 is a front view of the housing link 62 forming a part of the toggle mechanism of Figure 7. Figure 12 is a view of the housing link 62 from the opposite side and Figure 12 is a bottom plan view. It comprises a pair of parallel spaced plates 110. and 112 joined by a pair of integral straps 114 and 116 and with respective upper apertures 118 and 120 and respective lower apertures 122 and 124 for appropriate pivot pins. Formed in the parallel projections 126 and 128 are the apertures 120 and 132 for receiving the sear pin. Tab 134 acts as a s-top for s-triker har 68 in Figure 7.
Figure 1~ is a side view of the handle link 54 and Figure 15 is an edge view. The handle link again comprises what is sub-stantially a pair of parallel plates 136 and 138 with respective upper pivot apertures 140 and 142 and lower respective pivot ` apertures 144 and 146. The two plates are joined by a central portion 148 in Figure 15 and with a laterally e~tending boss 150 having a central aperture 152 adapted to receive a pivot pin which secures the handle link to the frame as indicated, for example, at 52 in Figure 2.
Figure 16 is a side view of the one piece frame as it is shown in Figure 2. Fiyure 17 is an edge view and Figure 18 is a top plan view of the one piece frame. Again, the frame com-prises essentially, a pair of parallel plates 154 and 156 joined by a central strap 158 having a projection 160 at its upper end and an outwardly bent tab 162 at its lower end, which tab supports the coil 40 in Figure 2. This tab is apertured at 164 to receive the lower end of the delay tube 44 in Figure 2. The two plates, . 154 and 156 of the frame have corresponding apertures 166 and 168 adapted to receive the pivot pin 50 of Figure 2 which pivots : the armature to the frame. Above these are further correspond-ing apertures 170 and 172 which receive the pivot pin 52 of Figure 2 about which the handle link 54 ro-tates or pivots. An ou~ward projection on plate 38 indicated at 174 in Figures 16 and 18 is provided with an aperture 176 adapted to rotatably receive an inextia wheel of the type illustrated particularly in Figures 10 and 11 of assigne~'s U.S. patent 3,497,838. This inertia wheel is operated by the counterweight portion 64 of the armature through a slot and pin coupling of the type disclosed in that patent. The inertia wheel construction is optional in the circuit breaker of the present invention and is normally ~nly incorporated in those devices used in situations where nuisance tripping is a serious problem. The lower end of each plate 1~4 and 156 is notched as indicated at 178 in ~igure 16 to engage a projection on the molded circuit brea~er case such as that indicated at 180 in Figure 2 to properly posit;on and align the ~rame in the case.
The ~orward face of each side plate 154 and 156 is provided with a part circular opening or notch 157 to receive 10 tab 812 of the carrier 80 to permit pivotal movement of the carrier 80 against frame side plates 154 and 156. The rear face o~ each side plate 154 and 156 is provided with a part - circular opening or notch 159 to receive the overcenter spring support pin 78. As seen in Fig. 16, the center of opening 157 is located below that of opening 159 to permit proper snap action opening and closing of contacts 70 and 72.
Figure 19 is a side view of the armature generally indicated at 180. Figure 20 is a front view of the entire armature, Figure 21 is a partial top plan view and Figure 22 is a view from the other side showing the other leg of the armature, while the position of the armature in Figure 19 corresponds to the position illustrated, for example, in Figure 2. The latch tripping leg extends downwardly and terminates in a curved end 182 and this leg is provided with a pivot aperture 1~4. The other leg of the armature ~orming the counterweight 64 has a corresponding pivot aperture 186 and includes an elongated slot 188 near its lower end adapted to engage a pin on an inertial wheel to form an inertial delay coupling of the t~pe shown in assignee's patent 3,497,B38 as i, . j ,~,"

previously described. Xn the device o~ this invention, the slot 188 is formed in that portion of the armature removed as far as possible from the pivot aperture 186. This makes it possible to form the fxame 38 out of a single piece of relatively inexpen-sive magnetic material, such as steel. This permits the inertial wheel to operate in the manner described in the above patent to provide an inertial tripping delay to the armature which is in addition to the tripping delay provided by the delay tube 49.

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~ Figure 23 is a view simi.l.ar -to FicJure 1 wi-th parts in sec-tion, illustrating how the toggle handle 34 :is connec-ted to the handle link pin 88. Figure 2~ is a par-tial cross section through the circuit breaker 10 of Figure 23 taken at right angles to the view in the previous figure. The assembly technique is somewhat similar to that illustrated in Figures 1 through 3 of assignee's U.S. Patent 3t749,873. Similar to that arrangement, the boss 32 of the molded case, is provic1ed with a pair of cooperating circular projections 190 and 192, which snap in to corresponding .. 10 recesses 19~ and 196 in the sides oE toggle handle 34. These ~- recesses are continuous with grooves 198 at 200. The pins snap into the recesses by snapping by the projec-~ions 202 and 204 . on each side, best seen for example, in the exploded view of Figure 25, which have sufficient resiliency to open slightly to permit passage of the corresponding round projection and then , closes sufficiently to hold the handle relative to the case.
The toggle handle 34 carries a central portion in the form of an actuator 206 which has a slot 208 in its lower end which slides over and engages the handle link pin 88 carried by the . 20 handle link 54. In order to insert the toggle handle, the mechanism, during assembly,is placed in the manually open position illustrated in Figure 2 with the handle link 88 in the position illustrated in Figure 2, which is also the position in which it is shown in Figures 23 through 25. The toggle handle 34 is then : 25 tilted in a slightly clockwise direction as illustrated in Figure 25 and inserted into the boss 32 with the molded plastic material of the case having sufficient resiliency such that the projections 190 and 192 slide up the grooves and into the recesses 19~ and 19~ as the slot 208 of the actuator slides over the handle link pin at 88. Once the handle has been inserted in this manner, ~ 13 ~

~L$~ 7 it is very difficult to remove ancl ~or all practical purposes, is permanently attached to the upper portion 14 of the circuit breaker case by rocking it back and forth between right and left .~ positions. The toggle mechanism may be manually actuated to move between the contact open position of Figure 2 and the contact . closed position of Figure 4.
Figures 26 and 27 show the details of the lower molded case section 16. This is illustrated in Figure 26 as having a central protrusion 210 which has been omitted from the previously described figures for the sake of clarity. It also shows projections 212 .~ and 214 adapted to be received in corresponding slots in the upper case section 14 and which projections correspond on the other side of the. lower case section 16 to the projections 22 and 24 previou~ly described. Each one of the sides 216 and 218 is provided with a corresponding set of three arc chute slots 220 in Figure 26 and 222 in Figure 25 adjacent the contact terminal 20 and remote from that portion of the case receiving the coil terminal 18. Magnetic metallic arc baffle elements are simply slipped into the case through grooves 220 and 222 and are retained in position by the upper or outer case section 14 when molded circuit breaker case sections 14 and 16 are slipped together.
Figure 28 shows a modified case construction and this embodi-ment is generally designated at 220. The upper case section 222, comprises a pair of resilient mounting "wings" of the type shown in assignee's U.S. Patent 3,749,873, preferably serrated at 228 and 230 to provide roughened outer surfaces which assist in mounting it to an inst.rument panel along with the integral rim 232. This embodiment is characterized principally by the fact that it inc~rporates a rocker handle 234.

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': ' Referring to Figure 29, the circuit breaker 220 has a . rocker handle which, as pxeviously described, is received by a pair of circular projections formed integral with the inside o~ the breaker housing as indicated by dash lines at 236 and 238 in Figure 30. These are received in cooperating circular recesses in the handle 234 and communicate with grooves on each side such as the groove 240 in Figure 29. The handle structure is essentially the same as in assiynee's U.S. Patent 3,7~9,873.
At its lower end, it is provided with a slot 242 which engages and drives the pin 88 of the handle link 5~. Beneath the ; rocker handle 234 is a lamp 244 mounted on a lamp bracket or holder generally indicated at 246. The lamp is connected by leads 248 and 250 to lower case center terminals 252 and 254 which pass through suitable apertures in the lower case central pro-- 15 jection 210. As best seen in ~igure 30, the two sides of the frame 38 support the lamp bracket 246 on which, in turn, is mounted the lamp 240. This is retained in the hollow space portion 256 in the underside o~ rocker handle 234.
Figure 31 is an enlarged view of the lamp bracket 246, Figure 32 is an end view of the lamp bracket and Figure 33 is a top plan view of it. The bracket comprises a pair of bow shaped support arms 248 and 250 each with central slots, 252 and 254, by means of which the bracket is secured to the pin 52.
These support arms are formed integral with a pair of cross bars ~5 256 and 258 which, in turn, support an elongated, shallow substan-tially U-snaped member 260 having a central recess curved in the shape of a portion o~ a circle, as illustrated at 262 to conform with and support the underside of the lamp 240. A member 260 is provided with reenforcing ribs 264 and 266 and a pair of holes 268 and 270. In normal practice, the lamp just sits in ~he shallow :: ';s~j ~

semicircular groove 262 but, if desired, it may actually be attached to as well as supported by the bracket through . the use of a small amount of epoxy adhesive.
Figures 34 and 35 illustrate how the rocker handle 234 is inserted into the circuit breaker housing. The handle is first inserted in a rightward and downward direction, as illustrated by the arrow 272 in Figure 34 so that the circular projection 238 slides into and along groove 240 and the corresponding pro~
jection on the other side of the outer case 222 slides along its similar corresponding groove. In order to get the projection into the corresponding rocker handle recesses, such as the recess 274 in ~igure 34, the rocker handle is then moved moxe vertically downwardly and to the left as indicated by the arrow 276 in Figure 34, so that the projection 238 snaps past the lips 278 and 280 and groove, or slot, 246 slips over the handle link at 88. As before, this is done with the mechani.sm of the circuit breaker set in the manually open contact position of Figure 2.
Figure 36 shows a further modified embodiment generally indicated at 282, in which like parts again bear like reference numerals. This circuit breaker embodiment has an upper cas~ 222 similar to the embodiment shown in Figure 28 but is charact~rized by a push button type handle 284. In ~his embodiment, the circuit breaker operation is push to open, push to close and this action is illustrated in Figures 37 and 38, the former illustrating the circuit breaker mechanism in the manually "on" position with the contacts closed, while Figure 38 shows the "off" position or manual contacts open position of Figure 2. Handle 284 is provided with an actuator, a portion of which is illustrated at 28~ in Figures 37 and 38 and the mechanism is provided with a modified handle link 288 having a pair of semicircular grooves or 31~7 recesses 290 and 292. When the device is in -the position illustrated in Fiyure 37, downward pressure on the button 284 causes the actuator to enter groove 290 rotatiny the handle link 288 in a counterclockwise direction into the position illustrated in Figure 38. A second depression of the button 284 when the device is in the position illustrated in Figure 38, causes the actuator 286 to enter the recess 292, rotating the handle link 288 in a clockwise direction about a pivot pin 52 back .into the closed or on position of Figure 37. Successive depressions of the push button handle similarly cause the handle link to rotate back and forth by alternate entrance of the actuator 286 into the respective grooves 290 and 292.
Figure 39 is a front view to an enlarged scale with portions in dash lines showing the push to open, push to close handle 284 of Figures 37 and 38. Figure 40 is a bottom plan view of the push button handle 284 and Figure 41 is a front view similar to Figure 39 with a portion in section showing the dis-tortion of the actuator spring during operation.
Referring to Figures 39 and 40, the push button handle 20 284 similar to the rocker handle previously described, has a hollow interior 294 which receives a lamp indicated by dash lines at 296 in Figure 39. This lamp is connected by electrical leads 298 and 300 to electrically conductive spring guide pins 302 and . 304. Carried by the push button,there is an ac-tuator spring support 306 which carries an elongated coiled actuator spring 308. The spring is retained by the support at each end and is free to deflect in the middle as indicated in Figure 41. It is engaged by actuator blade 286 which comprises at its upper end, a pivot 310 having its ends rotatably received .in apertures 312 and 314 (Figure 40) in the side walls 316 and 318 of the push ~ ( button. This pivot is connected by a centerpiece 319 to a lower pin or actuator blade 320 which engages in the respective grooves 290 and 292 of the handle link as illustrated in Figure 41.
Extending from the centerpiece 319 are a pair of wings 322 and 324 whose upper edges or shoulders engage and deflect the center portion of spring 308 as the shoulder of wing 324 is shown doing in Figure 41. It is understood that when the actuator 286 pivots in the opposite direction with the actuator blade or pin 320 re-ceived in the slot 290, tha shoulder of the other wing, 322 similarly engages and deflects a corresponding central portion of spring 308. Also forming a part of the handle 284 and formed integral with it are the four ribs, 326, 328, 330 and 332, ~ich are involved in the Joining of the handle to the circuit breaker case as more fully described below.
Figure 42 is a central cross section through the spring support 306 of Figure 40, Figure 43 is a bottom plan view of the spring support and Figure 43A is a cross section taken along line 43A-43A of Figure 43. The spring support 306 is shown as having a pair of projections 334 and 336 at one end engaging one end wall 338 of the pushbutton in Figure 40 and a similar pair of projections 340 and 342 engaging the other end wall 344. The center of the support 306 has a rectangular aperture at 346 to permit upward de-flection of the center portion of the spring as illustrated in Figure 41. The ends of the spring are received in semicircular cross section cutaways 348 and 350 communicating with the central aper-ture 346. One cutaway 350, is shown in Figure 43A and it is under-stood that the other cutaway 348 is a mirrox image of cutaway 350.
Figure 44 is a front view and Figure 45 is a side view of the actuator 286. ~s can be seen in Figure 45, the top pivot 310 is, in fact, made of two separate pivot portions 352 and 354.

Figure 46 is a central transverse cross sec-tion throuyh the handle 284 and Figure 47 is a bottom plan view of the handle by itself corresponding to the plan view oE Figure 40. The push-, button is preferably made of a suitable plastic such as a clear lexan type 141 and is preEerably roughened or knurled on its inside surface as indicated at 356 in Figures 46 and 47~ Each end of the handle is provided with a pair of recesses such as the recesses 358 and 360 in the end 338 for receiving the cor~
responding projections 334 and 336 of the spring support illus-trated in Figure 43. The other edge wall 344 is similarly pro-, vided with recesses 362 and 364 for receiving the projections 340 and 342 of the spring support 306 of Figure 43. These rec,esses act to limit the upward movement of the spring support relative to the interior of the push button. The end walls also contain apertures 366 and 368 for receiving the spring pins 302 and 304 of Figure 39.
Figure 48 is a diagrammatic view showing the manner of originally inserting the button into the top of the case. The case top is apertured as at 370 and the lower portion,of the button , 20 including the ribs, such as those illustrated at 328 and 332 inFigure 48, are squeezed together as the button is pushed down-wardly in the direction of the arrow 372 in Figure 48. The plastic of the handle and the plastic of the case are both sufficiently resilient that the button can be pushed in till the tops of the ribs, such as those illustrated at 374 and 376 in Figure 48 snap outwardly underneath the ledges or inner rim portions 378 and 380 of the case to limit the outward movement of the handle and to prevent it from being removed once it has been inserted into the upper section of the circuit breaker case.

i~ t Figure ~9 is an explodecl vie~J illustrating the complete assembly of the pushbutton emhodiment of the circuit breaker case. 'rhe assembly is accomplished in two principal steps, namely, the lower case sec-tion with the mechanism mounted on it is first snapped into place through the lower end of outer case section 22~. Once this has been done with the mechanism in the proper position, i.e., on the handle lin~ positioned in the manually contacts open location, the handle is then inserted into the upper end of the outer case section 22~ with the actuator mechanism of the handle properly engaging the handle link. This se~uence of ~ssembly holds true for all embodiments.
In Figure 49, the push button handle 284 is properly aligned by receipt of the ribs in corresponding grooves on the inside surface of the case such as the grooves illustrated at 382 and 384. Electrical connection to the lamp in this embodiment is b~
way of the handle spring 386 and 388 whose upper ends receive the spring guide pins 302 and 30~. Springs 386 and 388 urge the handle in the upward direction with the upper edges of the ribs engaging the upper end of the corresponding slots or grooves such as ihose jus~ mentioned at 382 and 384. In addition, the springs and pins provide an electrical circuit which is completed by way of a pair of wire connectors 390 and 392 which engage the bottom ends of handle springs 386 and 388 (coil com-pression springs) and also electrically connecting to the leads 394 and 396 much in the manner of the rocker handle embodiment previously described which ultimately lead to the lamp terminals 352 and 354.
It is apparent from the above that the presen-t invention provides an improved snap action circuit breaker mechanism which may be very compactly cons-tructed with a symmetrical arrange-ment and a variety of handle mechanisms utilizing the sarne basic structure. This makes it possible for the circuit breaker to be used in visible locations such as on an instru-S ment panel, much in the manner of a conventional switch. The attractive and symmetrical appearance of the various circuit breaker handles is consistent with modern instrument panel design and the manual snap actlon makes it impossible to "tease" the circuit breaker and is consistent with the on-off operation of most conventional switches. In this way, the device of this invention provides the advantages of a simple switch but adds to that , overcurrent protection in the form of an overcurrent sensing coil and collapsible mechanism By incorporating the delay tube construction and inertial delay, nuisance txipping is, for all practical purposes, eliminated and the device ma~ be used as a switch and relied upon for its operation in the manner of a conventional switch but with the added feature of electrical circuit protection.
The invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope o~ the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
What is claimed and desired to be secured by ~nited States Letters Patent is:

Claims (20)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A circuit breaker, comprising:
an insulated housing; a frame located in said insulated housing;
an overcurrent sensor mounted to said frame in said housing; a stationary contact and a movable contact in said housing, a latch mechanism coupled to said frame and engageable by said overcurrent sensor and adapted to be tripped by said sensor in response to a sensed overcurrent; and a flat blade member having said movable contact mounted to one end portion thereof; said circuit breaker being characterized by: a movable carrier coupled to said latch mechanism and movable between first and second positions in response to movement of said latch mechanism; said carrier comprising:
a generally flat top plate, a pair of side plates integral with-and extending downwardly from said top plate, a first pair of tabs integral with and extending upwardly from the front portion of said top plate for movably coupling said latch mechanism to said carrier, a back end portion integral with and extending downwardly from said top plate and having a recess for pivotally receiving the other end portion of said flat blade member, and a second pair of tabs integral with and extending laterally outwardly from the bottom portion of said side plate;
and an over-center spring coupled at one end with said blade member and at its other end to said frame;
said frame also having a pair of pivot mounts located below and forward of said spring mounting means for pivotally receiving said second pair of tabs of said movable carrier.

2. The circuit breaker according to claim 1, wherein:
said blade and carrier means are pivotally mounted to said frame about said pair of pivot mounts such that when said latch means is moved towards the contacts closed position, said blade carrier pivots about said pair of pivot mounts in one direction until said recessed blade pivot mounting lies above said spring mounting means, whereby said overcurrent spring exerts a force on said movable con-tact in the direction toward said stationary contact, and when the latch means is moved toward the contacts open position, said blade carrier pivots about said pair of pivot mounts in an opposite direction until said recessed blade pivot mounting lies below said spring mounting means, whereby said overcurrent spring erupts a force on said movable contact in the direction away from said stationary contact.

3. The circuit breaker according to claim 2, wherein said frame comprises:
a central strap having an outwardly bent tab at one end, and a pair of substantially aligned side plates integral with and extending from opposite lateral sides of said strap, said side plates having first aligned openings for receiving spring mounting means for securing said overcurrent spring to said frame and second aligned openings for receiving said movable carrier for pivotal movement of said carrier between said first and second positions.

4. The circuit breaker according to claim 3, wherein said overcurrent sensor includes an overcurrent trip coil mounted to said outwardly bent tab of said frame and an armature pivotally mounted to a pivot mounting means received in third aligned openings of said frame side plates.

5. The circuit breaker according to claim 4, further com-prising handle link means coupled to said latch mechanism for manually moving said movable contact between closed and open positions; said frame side plates having fourth aligned openings for receiving a pivot mounting means for pivotably mounting said handle link means.

6. The circuit breaker according to claim 1, wherein said overcurrent sensor includes an overcurrent trip coil mounted to said outwardly bent tab of said frame and an armature pivotably mounted to a pivot mounting means received in third aligned openings of said frame side plate.

7. The circuit breaker according to claim 6, further comprising handle link means coupled to said latch mechanism for manually moving said movable contact between closed and open positions; said frame side plates having fourth aligned openings for receiving a pivot mounting means for pivotably mounting said handle link means.

8. A circuit breaker according to claim 1 wherein over-current sensor comprises an electromagnetic coil and arma-ture, and said armature comprises a pair of legs remote from said coil, one of said legs operating as a trip for said latch mechanism, and the other of said legs acting as a counterweight for the portion of the armature adjacent said coil.

9. A circuit breaker according to claim 8, wherein said counterweight leg of said armature carries a portion of a pin and slot combination for coupling said counterweight leg to an inertial time delay wheel.

10. A circuit breaker according to claim 9, wherein said inertial time delay wheel includes a pin located thereon and said counterweight leg of said armature is provided with said slot at a location adjacent the portion of it most remote from said coil for coupling to the pin of said inertia wheel.

11. A circuit breaker according to claim 1 wherein said housing includes a boss surrounding a handle opening, said boss including opposing interior projections, said breaker further comprising a toggle type handle with a recess of each side receiving a corresponding projection, and a handle link including a drive pin for coupling said handle to said latch mechanism, said handle having a slot in its lower end received over said handle link pin.

12. A circuit breaker according to claim 11, in which said handle has a groove on each side communicating with said recesses whereby said handle may be assembled to said housing by sliding it into said boss until said projections snap into said recesses.

13. A circuit breaker according to claim 1, wherein said housing includes opposing interior projections, adjacent a handle opening, said breaker further comprising a rocker type handle with a recess on each side receiving a corresponding projection and a handle link including a drive pin for coupling said handle to said latch mechanism, said handle having a slot in its lower end received over said handle link pin and the interior underside of said rocker handle is hollow, a lamp bracket is carried by said frame, and a lamp is supported partly within said hollow interior of said rocker handle by said lamp bracket.

14. A circuit breaker according to claim 13, including a projection on the central bottom of a lower section of said housing, a pair of lamp terminals extending outwardly from said projection, and a pair of electrical leads coupling said lamp to said terminals.

15. A circuit breaker according to claim 14, wherein said bracket has an elongated semicircular recess in which said lamp rests.

16. A circuit breaker according to claim 1, further including a handle and handle link coupling said handle to said latch mechanism and cooperating to impart a push-to-open and push-to-close manual action to said circuit breaker, wherein said handle link is provided with a pair of spaced grooves, said push button having an actuator which is received in each of said grooves with successive depressions of said button to rock said handle link back and forth about its pivot axis.

17. A circuit breaker according to claim 16, comprising a coiled tension spring in said handle, said actuator being privoted for rocking movement and having a pair of shoulders which alternately engage a central area of said handle spring.

18. A circuit breaker according to claim 17, comprising a spring support in said handle, said spring support receiving the opposite ends of said spring and having a central opening permitting deflection of the central portions of said spring.

19. A circuit breaker according to claim 18 wherein said spring support has projections on each end received in recesses in said handle.

20. A circuit breaker according to claim 19, wherein said push button handle has a hollow center, and a lamp in said center.