US2381294A - Circuit breaker - Google Patents

Circuit breaker Download PDF

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US2381294A
US2381294A US482843A US48284343A US2381294A US 2381294 A US2381294 A US 2381294A US 482843 A US482843 A US 482843A US 48284343 A US48284343 A US 48284343A US 2381294 A US2381294 A US 2381294A
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rotor
circuit
casing
contact
circuit breaker
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US482843A
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Langstroth Hall
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MAGUIRE IND Inc
MAGUIRE INDUSTRIES Inc
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MAGUIRE IND Inc
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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
    • H01H71/74Means for adjusting the conditions under which the device will function to provide protection
    • H01H71/7427Adjusting only the electrothermal mechanism
    • H01H71/7436Adjusting the position (or prestrain) of the bimetal
    • 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
    • H01H71/74Means for adjusting the conditions under which the device will function to provide protection

Definitions

  • H. LANGSTROTH 2,381,294 V CIRCUIT BREAKER Filed April 13, 1945 s Sheets-Sheet 1 :3 k Inveniar HALL LANGSTROTH Aug. 7, 1945.
  • H. LANGSTROTH 2,381,294 V CIRCUIT BREAKER Filed April 13, 1945 s Sheets-Sheet 1 :3 k Inveniar HALL LANGSTROTH Aug. 7, 1945.
  • My invention relates to a circuit breaker, and more particularly to a small circuit breaker having manually operated reset and release mechanism,-together with automatically operated release mechanism.
  • the invention isparticularly useful in its application to automotive units, es-
  • One object of the invention is to provide a small, compact circuit breaker hich may be conveniently mounted at points w h ere little space is available. Another object is the provision of such a circuit breaker which may be operated to break the circuit either by an overload or conveniently by hand, and which may be reset by hand with equal ease and convenience. Still another object is the provision of a mounting for a movable contact in such form that relative movement may be effected between the mountin and the contact without pivoted r sliding parts. A furtherv object is the provision of such a small,
  • Fig. 2 is a view similar to Figure 1, showing the elements in open circuit position
  • Fig. 3 shows the circuit breaker as seen from below, the casing being assembled andthe handle being shown,
  • Fig. 4 is an elevation similar to Figure 1, the operating elements 01 the circuit breaker being removed irom the casing,
  • Fig. 5 is a cross section taken on the line V-V. of Fig. 7, the elements being shown a in circuit closing position
  • Fig. 6 is a fragmental view similar to Figure 1, the elements being shown at the moment the circuit breaker is tripped by hand, g
  • Fig. 7 is a horizontal mid-section of the circuit breaker taken on the line VII-VII of Figure 1,
  • Fig. 8 is a vertical section taken on the line VIIIVIII of Figure 1
  • Fig. 9 shows the interior of the casing with all operating elements removed, as viewed on the line'IXIX of Fig. 8,
  • Fig. 10 is a vertical mid-section taken on the lineX-X of Fig. 9, and
  • Fig. 11 is a horizontal mid-section taken on the line XI-XI of Fig. 9.
  • An important problem in designing a circuit breaker is that of providing a breaker in such sturdy form that it may be used with confidence for a variety of purposes when made in a variety of sizes. Another important problem is that of providing such a breaker which may be tripped with minimum force to give a quick break, and which will maintain full contact pressure up to the time of breaking. I have found that such results may be obtained if butt engagement is made between the contacts, under pressure, and if substantially frictionless multiplication of the resetting or tripping force is efiected, which is advantageous in a small breaker.
  • FIG. 1 The particular embodiment of the invention illustrated in the drawings shows a two part casing 20 in which all of the operating parts are inclosed.
  • the entire assembly may be fitted together in a containingpart 2
  • a stationary contact 23 is fixed in a recess 24 in the containing part 2
  • the lead 25 and the terminal 26 are unitary, but such is not necessarily the case.
  • a movable contact 21 is also contained within the casing 20, and when in closed circuit position, meets the fixed contact 23 m butt engagement where it is held in position under pressure.
  • the movable contact 21 is carried by a support, herebent to form an angle 32 which is firmly held in a recess formed in the support; or rotor 28.
  • a support herebent to form an angle 32 which is firmly held in a recess formed in the support; or rotor 28.
  • Means is provided for normally urging the rotor in a clockwise direction as viewed in Figs. 1 and 2: that is to say, into open circuit position.
  • this means comprises a tension spring 33' housed in an arc-shaped channel 34 in the rotor 28.
  • One end of the spring 33 is attached to the rotor adjacent the angle 32.
  • the other end of the Spring is attached to a post 35 fixed to the containing pa'rt 2
  • the spring 33 always tends to move the rotor into open circuit position, as illustrated in Fig. 2.
  • Releasable means is also provided for holding the movable contact in circuit closing position.
  • this means comprises a bi-metal strip 33 fastened at one end in the containing part 2
  • This bi-metal strip curves around the rotor and its free end 38 extends beyond the angle 32 formed on the arm 3
  • a leaf spring 39 is fixed to the inside of the curved I bi-metal strip 36 in a position to engage an end 40 oi. the arm 3
  • the end 40 rides over the leaf spring 39 bowing the resilient bi-metal strip 36 slightly away from the rotor.
  • the rotor continues to turn until the end 43 passes beyond the spring 39, whereupon the resiliency of the bi-metal strip 36 brings the spring 33 up behind the end 40 to hold the rotor in circuit closing position.
  • the circuit passes through the bi-metal strip 38 from a terminal 4
  • a pigtail 43 is attached at one end to the bi-metal strip, preferably adjacent the leaf spring 33, as shown in the drawings, and is also attached at the other end to the resilient metal arm 3
  • a screw 44 attaches the pigtail 43 to the arm 3
  • other means might be employed for this purpose.
  • the iii-metal strip 33 is so constructed that the rotor will be held in the position illustrated in Figure 1, against the action 0! the spring 33, for all ordinary loads.
  • An overload upon the circuit will tend to straighten the bi-metal strip, according to well-known principles the metal having the greater coefilcient of expansion being positioned on the inside of the bi-metal strip.
  • the leaf spring 39 will be moved out of engagement with the end 43, whereupon the spring 33 will snap the rotor into open circuit position.
  • Means is provided for adjusting the action of the bi-metal strip 36.
  • a set screw 45 is disposed in a channel 43 in the containing part 2
  • the distance of the bi-metal strip from the rotor may be affected by pressure of the set screw 45.
  • distortion of the bi-metal strip will be efiected beyond the point of contact with the set screw instead of beyond the screw 31, when pressure is applied to the bi-metal strip by the set screw.
  • the invention also contemplates manually operable means for releasing the releasable means, as well as for moving the contacts into circuit closing position and for holding them there
  • a lever 41 of insulating material pivoted in the socket 220 by means of a nipple 48 formed thereon, and resting on its opposite side against the rotor 28 and the containing part 2
  • the lever 41 has a handle 43 formed thereon which extends through the opening 22a outside of the casing. The lever is cut away, as at 50, so that it may operate in all positions without interference with the pivot or stem upon which the rotor 28 turns.
  • is formed upon the lever 41 on the opposite end thereof from the handle 43. This cam surface coacts with a roller 52 pivotally mounted upon the rotor 23 to turn the rotor into circuit closing position as the handle is moved from the position shown in Fig. 2 to that shown in Figure 1.
  • the cam surface and roller contact makes it possible to close the circuit by means of the lever 41 substantially without friction.
  • a projection 53 is formed on the lever 41 in a. position to engage the free end 33 of the bi-metal strip 36 and move the bi-metal strip away from the rotor.
  • the rotor may be released by hand, and the contacts brought into open circuit position through the action of the rotor spring 33.
  • Fig. 8 shows the elements at the instant of tripping by means of the lever 41. If the breaker is tripped by an overload which distorts the bi-metal strip 36 and thereby disengages the leaf spring 33 from the end 43, the roller 32 acting against the cam surface 3
  • the projection 33 engages the end 33, as shown in Fig. 2, and holds the bi-metal strip 36 away from the rotor 23.
  • the circuit breaker cannot then be reset in closed circuit 56 formed in the depression concentric with the nipple 48.
  • One end of the spring 54 is turned at a right angle and positioned in a hole 51 in the lever 41.
  • the other end of the spring is turned in the opposite direction and positioned in a hole 58 in the cover 22.
  • the force exerted by the spring tends to keep the lever in circuit closing position. However, this force is insufiicient to overcome the force of the rotor spring 33, and merely prevents displacement of the lever by vibration or unintentional slight force upon the handle.
  • a hump 59 extending from the interior wall of the containing part 2
  • is increased until the movable contact 2'! snaps over the hump and makes quick contact.
  • Movement in the'opposite direction, to open the circuit is effected very quickly by the tension of the rotor spring 33, as engagement of the end 40 by the leaf spring 39 is released.
  • the contacts are opened instantly, and the hump 59 does not appreciably retard the movable contact 21 in reaching full open circuit position.
  • the hump 59 may, of course, be given a variety of forms. It is here illustrated rather diagrammatically because difierent operating requirements may call for different hump contours.
  • a unitary segmental boss 60 is formed on its face farthest from the lever 41.
  • is formed in the inner surface of the containing part 2
  • the angular length of the trough is equal to the angular length of the boss 60 plus the angular distance which the rotor travels from open circuit to closed circuit position.
  • the boss and trough are so positioned that the rotor is stopped in closed circuit position and in the desired open circuit position, and undue oscillations or straining of the rotor spring 33 do not occur.
  • a circuit breaker constructed in accordance with the invention may be constructed in small and compact form, and may then be easily mounted where limited space is available. In fact, because of the size of such small circuit breakers a number of such circuit breakers may be mounted side by side on a panel board and may be operated simultaneously by hand with ease and convenience. Furthermore, the bi-metal overload trip permits use of the circuit breaker with either A. C. or D. 0. Still further, such circuit breakers are sturdy and maybe used for a variety of purposes and may be constructed in a variety of sizes. Finally, minimum force is required to trip or reset this circuit breaker.
  • a circuit breaker a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, means for normally urging said movable contact into open circuit position, releasable means for holding said movable contact in circuit closing position, a, separately pivoted manually operable member unconnected with the mounting of said movable contact for moving said movable contact into circuit closing position, and means for releasing said releasable means.
  • a circuit breaker a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, means for normally urging said movable contact into open circuit position, releasable means for holding said movable contact in circuit closing position, a separately pivoted manually operable lever unconnected with the mounting of said movable contact movable in one direction to move said movable contact into circuit closing position and movable in the opposite direction to release said releasable means, and heat responsive means for releasing said releasable means.
  • a fixed contact In a circuit breaker, a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, a spring for normally urging said movable contact into open circuit position, a second spring for holding said movable contact in circuit" closing position, a, separately pivoted manually operable lever unconnected with the mounting of said movable contact for moving said movable contact into circuit closing and open circuit position, and a bi-metal element in circuit with said movable contact for releasing said second spring and thereby releasing said movable contact from circuit closing position.
  • a casing a contact fixed in said casing, a rotor pivoted in said casing, a roller eccentrically pivoted to said rotor, a second contact fixed to said rotor adapted to engage said fixed contact, and a manually operable lever separately pivoted in said casing for moving said rotor into circuit closing position, a face of said lever being positioned to contact said roller for so moving said rotor.
  • a circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivotedin said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, a manually operable member separately pivoted in said casing and unconnected with the mounting of said rotor for moving said rotor into circuit closing position, and means for releasing said releasable means.
  • a circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, a manually operable member separately pivoted in said casing and unconnected with the mounting of said rotor for moving said rotor into circuit closing position, and bi-metal means for releasing said releasable means.
  • a circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit posi- 8.
  • a circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, heat-responsive means for releasing said releasable means, and a manually operable member separately pivoted in said casing movable in one direction to move said rotor into circuit closing position and movable in the opposite direction to release said releasable means.
  • a circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, a spring for normally urging said rotor into open circuit position, a second spring for releasably holding said rotor in circuit closing position, a heatresponsive metal strip for releasing said second spring, and a manually operable member separately pivoted in said casing movable in one direction to move said rotor into circuit closing position and movable in the opposite direction to release said second spring.
  • a circuit breaker comprising a casing formed of insulating material, a contact fixed in said casing, a rotor formed of insulating material pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, a spring for normally urging said rotor into open circuit position, a second spring for releasably holding said rotor in circuit closing position, a bi-metal element included in the circuit when said circuit is closed for releasing said second spring, and a manually operable lever formed of insulating material separately pivoted in said casing movable in one direction to turn said rotor into circuit closing position and movable in the opposite direction to release said second spring, substantially as described.

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Description

Aug. 7, 1945. H. LANGSTROTH 2,381,294 V CIRCUIT BREAKER Filed April 13, 1945 s Sheets-Sheet 1 :3 k Inveniar HALL LANGSTROTH Aug. 7, 1945. H. LANGSTROTH 2,381,294
CIRCUIT BREAKER Filed April 13, 1943 3 Sheets-Sheet Jizven?0r- HALL LANGSTROTH tion.
' Patented Aug. 7, 1945 2,381,294 CIRCUIT BREAKER nan Langstroth, Greenwich, Conn., ass 'or to Maguire Industries, Incorporated, a corporation or New York Application April 1a, 1943, Serial No. 482,848
10 Claims. (01.200-116) My invention relates to a circuit breaker, and more particularly to a small circuit breaker having manually operated reset and release mechanism,-together with automatically operated release mechanism. The invention isparticularly useful in its application to automotive units, es-
pecially .airplanes, to which use, however, it isv not restricted.
One object of the invention is to provide a small, compact circuit breaker hich may be conveniently mounted at points w h ere little space is available. Another object is the provision of such a circuit breaker which may be operated to break the circuit either by an overload or conveniently by hand, and which may be reset by hand with equal ease and convenience. Still another object is the provision of a mounting for a movable contact in such form that relative movement may be effected between the mountin and the contact without pivoted r sliding parts. A furtherv object is the provision of such a small,
compact circuit breaker which may be held in' circuit closing position by hand. Still a further object is the provision of such a circuit breaker wherein the operating handle has but two positions, whereby it will be obvious at aglance whether the contacts are in open or closed posi- Other objects of the invention will be apparent upon consideration of the present speciflcation.
One form of the invention accompanying drawings, in which- Figure 1 is an elevation of a circuit breaker constructed in accordance with the invention,
one part of the casing being removed to show the mechanism, and the elements being shown in circuit closing position,
Fig. 2 is a view similar to Figure 1, showing the elements in open circuit position,
Fig. 3 shows the circuit breaker as seen from below, the casing being assembled andthe handle being shown,
Fig. 4 is an elevation similar to Figure 1, the operating elements 01 the circuit breaker being removed irom the casing,
Fig. 5 is a cross section taken on the line V-V. of Fig. 7, the elements being shown a in circuit closing position,
Fig. 6 is a fragmental view similar to Figure 1, the elements being shown at the moment the circuit breaker is tripped by hand, g
Fig. 7 is a horizontal mid-section of the circuit breaker taken on the line VII-VII of Figure 1,
is illustrated in. the
Fig. 8 is a vertical section taken on the line VIIIVIII of Figure 1, Fig. 9 shows the interior of the casing with all operating elements removed, as viewed on the line'IXIX of Fig. 8,
Fig. 10 is a vertical mid-section taken on the lineX-X of Fig. 9, and
Fig. 11 is a horizontal mid-section taken on the line XI-XI of Fig. 9.
An important problem in designing a circuit breaker is that of providing a breaker in such sturdy form that it may be used with confidence for a variety of purposes when made in a variety of sizes. Another important problem is that of providing such a breaker which may be tripped with minimum force to give a quick break, and which will maintain full contact pressure up to the time of breaking. I have found that such results may be obtained if butt engagement is made between the contacts, under pressure, and if substantially frictionless multiplication of the resetting or tripping force is efiected, which is advantageous in a small breaker.
The particular embodiment of the invention illustrated in the drawings shows a two part casing 20 in which all of the operating parts are inclosed. Thus, the entire assembly may be fitted together in a containingpart 2| of the easing with'only certain elements projecting therefrom. A cover 22, complementary to the containing part 2|, completes the casing, and provides an opening 22a and sockets 22b and22c to accommodate certain parts, as will be subsequently explained.
A stationary contact 23 is fixed in a recess 24 in the containing part 2| of the casing, and is connected by a lead 25 to a terminal 26 outside of the casing. As here shown, the lead 25 and the terminal 26 are unitary, but such is not necessarily the case.
A movable contact 21 is also contained within the casing 20, and when in closed circuit position, meets the fixed contact 23 m butt engagement where it is held in position under pressure.
resilient metal arm II, the other end of which is The movable contact 21 is carried by a support, herebent to form an angle 32 which is firmly held in a recess formed in the support; or rotor 28. In consequence of this arrangement, when the rotor 28 is turned in contraclockwise direction, as viewed in Figs. 1 and 2, face-to-face meeting or butt engagement is made between the contact 23 and 21. If the rotor 28 is turned through a greater angular distance than the contact 21, then by reason of the flexibility or resilience of the arm 3|, engagement of the contacts is made under pressure. Thus relative movement is possible between the movable contact 21 and the rotor 28 without the use of pivoted or sliding connection between the movable contact and the rotor.
Means is provided for normally urging the rotor in a clockwise direction as viewed in Figs. 1 and 2: that is to say, into open circuit position. In the embodiment here shown this means comprises a tension spring 33' housed in an arc-shaped channel 34 in the rotor 28. One end of the spring 33 is attached to the rotor adjacent the angle 32. The other end of the Spring is attached to a post 35 fixed to the containing pa'rt 2| of the casing 20. Thus the spring 33 always tends to move the rotor into open circuit position, as illustrated in Fig. 2.
Releasable means is also provided for holding the movable contact in circuit closing position. As shown in the drawings this means comprises a bi-metal strip 33 fastened at one end in the containing part 2| of the casing as by a screw 31. This bi-metal strip curves around the rotor and its free end 38 extends beyond the angle 32 formed on the arm 3|, in all positions of the rotor.
iii
A leaf spring 39 is fixed to the inside of the curved I bi-metal strip 36 in a position to engage an end 40 oi. the arm 3| which projects beyond the rotor from the point 32 at which the arm 3| is attached to the rotor. Thus, as the rotor is turned to bring the contacts into circuit closing position, the end 40 rides over the leaf spring 39 bowing the resilient bi-metal strip 36 slightly away from the rotor. After the contacts 23 and 21 have been closed. the rotor continues to turn until the end 43 passes beyond the spring 39, whereupon the resiliency of the bi-metal strip 36 brings the spring 33 up behind the end 40 to hold the rotor in circuit closing position. (See Figure 1.)
The circuit passes through the bi-metal strip 38 from a terminal 4| outside ofthe casing, through a lead 42 which passes into the containing part 2| of the casing and is connected to the bi-metal strip 33 at the screw 31. A pigtail 43 is attached at one end to the bi-metal strip, preferably adjacent the leaf spring 33, as shown in the drawings, and is also attached at the other end to the resilient metal arm 3| near the angle 32. As shown in Figs. 1, 2, 5 and 6, a screw 44 attaches the pigtail 43 to the arm 3|, and at the same time attaches the arm 3| to the rotor 23. Obviously other means might be employed for this purpose.
Operation of the apparatus as so far described is as follows: With the elements in the position shown in Figure 1, current'passes from the terminal 4|, through the lead 42 to the iii-metal strip 33, thence through the pigtai143 to the arm 3| to the contact 21-, to the'contact 23, the lead 23 and the terminal '23.
The iii-metal strip 33 is so constructed that the rotor will be held in the position illustrated in Figure 1, against the action 0! the spring 33, for all ordinary loads. An overload upon the circuit, however, will tend to straighten the bi-metal strip, according to well-known principles the metal having the greater coefilcient of expansion being positioned on the inside of the bi-metal strip. As this straightening occurs, the leaf spring 39 will be moved out of engagement with the end 43, whereupon the spring 33 will snap the rotor into open circuit position.
Means is provided for adjusting the action of the bi-metal strip 36. In the embodiment illus trated a set screw 45 is disposed in a channel 43 in the containing part 2| of the casing 23, and is threaded through the lead 42 to bear against the outer face of the bi-metal strip 36. Accordingly the circuit may pass from the lead 42 to the bimetal strip 36 through the set screw 45 thereby shortening the length of the bi-metal strip subject to overload heat. Furthermore, the distance of the bi-metal strip from the rotor may be affected by pressure of the set screw 45. Finally, distortion of the bi-metal strip will be efiected beyond the point of contact with the set screw instead of beyond the screw 31, when pressure is applied to the bi-metal strip by the set screw. Thus a simple and effective means of calibration is provided.
The invention also contemplates manually operable means for releasing the releasable means, as well as for moving the contacts into circuit closing position and for holding them there In the illustrative embodiment shown in the drawings, there is employed a lever 41 of insulating material pivoted in the socket 220 by means of a nipple 48 formed thereon, and resting on its opposite side against the rotor 28 and the containing part 2|, all as best shown in Fig. 7. The lever 41 has a handle 43 formed thereon which extends through the opening 22a outside of the casing. The lever is cut away, as at 50, so that it may operate in all positions without interference with the pivot or stem upon which the rotor 28 turns.
A cam surface 5| is formed upon the lever 41 on the opposite end thereof from the handle 43. This cam surface coacts with a roller 52 pivotally mounted upon the rotor 23 to turn the rotor into circuit closing position as the handle is moved from the position shown in Fig. 2 to that shown in Figure 1. The cam surface and roller contact makes it possible to close the circuit by means of the lever 41 substantially without friction.
A projection 53 is formed on the lever 41 in a. position to engage the free end 33 of the bi-metal strip 36 and move the bi-metal strip away from the rotor. Thus, by moving the handle 43 from the position shown in Figure 1 to that shown in Fig. 2, the rotor may be released by hand, and the contacts brought into open circuit position through the action of the rotor spring 33. Fig. 8 shows the elements at the instant of tripping by means of the lever 41. If the breaker is tripped by an overload which distorts the bi-metal strip 36 and thereby disengages the leaf spring 33 from the end 43, the roller 32 acting against the cam surface 3| turns the lever into the position shown in Fig. 2. Whether the circuit is broken by hand orby overload, the projection 33 engages the end 33, as shown in Fig. 2, and holds the bi-metal strip 36 away from the rotor 23. The circuit breaker cannot then be reset in closed circuit 56 formed in the depression concentric with the nipple 48. One end of the spring 54 is turned at a right angle and positioned in a hole 51 in the lever 41. The other end of the spring is turned in the opposite direction and positioned in a hole 58 in the cover 22. The force exerted by the spring tends to keep the lever in circuit closing position. However, this force is insufiicient to overcome the force of the rotor spring 33, and merely prevents displacement of the lever by vibration or unintentional slight force upon the handle.
As the rotor is moved from open circuit position to closed circuit position the contact 21 is held momentarily by a hump 59 extending from the interior wall of the containing part 2| into its path. As the handle 49 continues to move toward closed circuit position, tension on the resilient arm 3| is increased until the movable contact 2'! snaps over the hump and makes quick contact. Movement in the'opposite direction, to open the circuit, is effected very quickly by the tension of the rotor spring 33, as engagement of the end 40 by the leaf spring 39 is released. The contacts are opened instantly, and the hump 59 does not appreciably retard the movable contact 21 in reaching full open circuit position. The hump 59 may, of course, be given a variety of forms. It is here illustrated rather diagrammatically because difierent operating requirements may call for different hump contours.
In order to prevent the rotor 28 from exceeding the desired angular travel a unitary segmental boss 60 is formed on its face farthest from the lever 41. A fan shaped trough 6| is formed in the inner surface of the containing part 2| to accommodate the segmental boss when the rotor is in place. The angular length of the trough is equal to the angular length of the boss 60 plus the angular distance which the rotor travels from open circuit to closed circuit position. The boss and trough are so positioned that the rotor is stopped in closed circuit position and in the desired open circuit position, and undue oscillations or straining of the rotor spring 33 do not occur.
A circuit breaker constructed in accordance with the invention may be constructed in small and compact form, and may then be easily mounted where limited space is available. In fact, because of the size of such small circuit breakers a number of such circuit breakers may be mounted side by side on a panel board and may be operated simultaneously by hand with ease and convenience. Furthermore, the bi-metal overload trip permits use of the circuit breaker with either A. C. or D. 0. Still further, such circuit breakers are sturdy and maybe used for a variety of purposes and may be constructed in a variety of sizes. Finally, minimum force is required to trip or reset this circuit breaker.
The particular form of the invention here described and illustrated in the accompanying drawings is presented merely as an example of how the invention may be applied. Other forms, embodiments and applications of the invention, coming within the proper scope of the appended claims, will readily suggest themselves to those skilled in the circuit breaker art.
I claim:
1. In a circuit breaker, a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, means for normally urging said movable contact into open circuit position, releasable means for holding said movable contact in circuit closing position, a, separately pivoted manually operable member unconnected with the mounting of said movable contact for moving said movable contact into circuit closing position, and means for releasing said releasable means.
2. In a circuit breaker, a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, means for normally urging said movable contact into open circuit position, releasable means for holding said movable contact in circuit closing position, a separately pivoted manually operable lever unconnected with the mounting of said movable contact movable in one direction to move said movable contact into circuit closing position and movable in the opposite direction to release said releasable means, and heat responsive means for releasing said releasable means.
3. In a circuit breaker, a fixed contact, a pivotally mounted movable contact for engaging said fixed contact, a spring for normally urging said movable contact into open circuit position, a second spring for holding said movable contact in circuit" closing position, a, separately pivoted manually operable lever unconnected with the mounting of said movable contact for moving said movable contact into circuit closing and open circuit position, and a bi-metal element in circuit with said movable contact for releasing said second spring and thereby releasing said movable contact from circuit closing position.
4. In a circuit breaker, a casing, a contact fixed in said casing, a rotor pivoted in said casing, a roller eccentrically pivoted to said rotor, a second contact fixed to said rotor adapted to engage said fixed contact, and a manually operable lever separately pivoted in said casing for moving said rotor into circuit closing position, a face of said lever being positioned to contact said roller for so moving said rotor.
5. A circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivotedin said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, a manually operable member separately pivoted in said casing and unconnected with the mounting of said rotor for moving said rotor into circuit closing position, and means for releasing said releasable means.
6. A circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, a manually operable member separately pivoted in said casing and unconnected with the mounting of said rotor for moving said rotor into circuit closing position, and bi-metal means for releasing said releasable means.
'7. A circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit posi- 8. A circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, means for normally urging said rotor into open circuit position, releasable means for holding said rotor in circuit closing position, heat-responsive means for releasing said releasable means, and a manually operable member separately pivoted in said casing movable in one direction to move said rotor into circuit closing position and movable in the opposite direction to release said releasable means.
9. A circuit breaker comprising a casing, a contact fixed in said casing, a rotor pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, a spring for normally urging said rotor into open circuit position, a second spring for releasably holding said rotor in circuit closing position, a heatresponsive metal strip for releasing said second spring, and a manually operable member separately pivoted in said casing movable in one direction to move said rotor into circuit closing position and movable in the opposite direction to release said second spring.
10. A circuit breaker comprising a casing formed of insulating material, a contact fixed in said casing, a rotor formed of insulating material pivoted in said casing, a second contact fixed to said rotor adapted to engage said fixed contact, a spring for normally urging said rotor into open circuit position, a second spring for releasably holding said rotor in circuit closing position, a bi-metal element included in the circuit when said circuit is closed for releasing said second spring, and a manually operable lever formed of insulating material separately pivoted in said casing movable in one direction to turn said rotor into circuit closing position and movable in the opposite direction to release said second spring, substantially as described.
HALL LANGSTROTH.
US482843A 1943-04-13 1943-04-13 Circuit breaker Expired - Lifetime US2381294A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2532258A (en) * 1944-02-16 1950-11-28 Gen Electric Electric circuit interrupter
US2693516A (en) * 1951-10-18 1954-11-02 Westinghouse Electric Corp Circuit breaker
US2701829A (en) * 1951-08-03 1955-02-08 Cutler Hammer Inc Manually operable circuit breaker
US5844188A (en) * 1996-12-19 1998-12-01 Siemens Energy & Automation, Inc. Circuit breaker with improved trip mechanism
US5866996A (en) * 1996-12-19 1999-02-02 Siemens Energy & Automation, Inc. Contact arm with internal in-line spring
US5894260A (en) * 1996-12-19 1999-04-13 Siemens Energy & Automation, Inc. Thermal sensing bi-metal trip actuator for a circuit breaker
US6087914A (en) * 1996-12-19 2000-07-11 Siemens Energy & Automation, Inc. Circuit breaker combination thermal and magnetic trip actuator

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2532258A (en) * 1944-02-16 1950-11-28 Gen Electric Electric circuit interrupter
US2701829A (en) * 1951-08-03 1955-02-08 Cutler Hammer Inc Manually operable circuit breaker
US2693516A (en) * 1951-10-18 1954-11-02 Westinghouse Electric Corp Circuit breaker
US5844188A (en) * 1996-12-19 1998-12-01 Siemens Energy & Automation, Inc. Circuit breaker with improved trip mechanism
US5866996A (en) * 1996-12-19 1999-02-02 Siemens Energy & Automation, Inc. Contact arm with internal in-line spring
US5894260A (en) * 1996-12-19 1999-04-13 Siemens Energy & Automation, Inc. Thermal sensing bi-metal trip actuator for a circuit breaker
US6087914A (en) * 1996-12-19 2000-07-11 Siemens Energy & Automation, Inc. Circuit breaker combination thermal and magnetic trip actuator

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