US592100A - Automatic magnetic circuit-breaker - Google Patents
Automatic magnetic circuit-breaker Download PDFInfo
- Publication number
- US592100A US592100A US592100DA US592100A US 592100 A US592100 A US 592100A US 592100D A US592100D A US 592100DA US 592100 A US592100 A US 592100A
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- switch
- core
- actuate
- latch
- breaker
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- 210000001847 Jaw Anatomy 0.000 description 8
- 230000004907 flux Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 230000005484 gravity Effects 0.000 description 4
- 230000001105 regulatory Effects 0.000 description 4
- 101710034857 ATIC Proteins 0.000 description 2
- 241000383403 Solen Species 0.000 description 2
- 230000001186 cumulative Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 239000000696 magnetic material Substances 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000000926 separation method Methods 0.000 description 2
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H83/00—Protective switches, e.g. circuit-breaking switches, or protective relays operated by abnormal electrical conditions otherwise than solely by excess current
- H01H83/02—Protective switches, e.g. circuit-breaking switches, or protective relays operated by abnormal electrical conditions otherwise than solely by excess current operated by earth fault currents
- H01H83/04—Protective switches, e.g. circuit-breaking switches, or protective relays operated by abnormal electrical conditions otherwise than solely by excess current operated by earth fault currents with testing means for indicating the ability of the switch or relay to function properly
Definitions
- My invention relates to automatic magnetic ro circuit-breakers, and the object of my improvement is to provide a circuit-breaker which will be actuated to open the circuit or circuits either upon 'a predetermined maximum or minimum flow of current having conr 5 venient means of exact adjustment, means of introducing into the device current or currents in various'ways, either to actuate it or to be aifected by its actuation, with means for increased efliciency in actuation.
- Figurel is a front view of one form of my circuit-breaker, showing two jacketed coils side by side.
- Fig. 2 is a side view of same in partsection.
- Fig. 3 is a top view of same.
- Fig. 4 is a front view of another form of my circuit-breaker having double poles and showing but one solen oid-coil and movable core with an electromagnet placed over the core havingapivoted armature.
- Fig. 5 is a side view of same in part section.
- 6 to 13 are diagrams showing various arrangements for introducing currents into the device either to actuate it or to be afiected by its actuation.
- Fig. 14 is a view in perspective of a portion of switch arm and hub thereon.
- Fig. 1, 6 is the base-block of non-magnetic material upon which are mounted two magnetic jackets 7 and 8, each containing a solenoid'coil 9 and 10, respectively.
- Each coil surrounds a non-magnetic tube, which contains at its upper end a. fixed magnetic core, and below the fixed magnetic core a movable core.
- the fixed core 11 has passing through it longitudinally a movable magnetic pin 12, adapted to communicate the impact of core 13 to latch 14, the ends of the fixed and movable cores being so shaped that a portion of one is adapted to overlap a portion of the other, so that the shortest distance between the two is less than their axial separation.
- the fixed core 15 has passing through it longitudinally the movable non-magnetic rod 16, secured to the movable core 17, and is provided with a head 18, adapted to engage with lever 19. The section of one or both of these cores immediately at point of contact may be reduced to obtain increased pull.
- the switch-bridge 20 is mounted upon arms 21. The contacts of the switch-bridge are at 22 adapted to engage with the switch-jaws 23. (Best shown in Fig. 3.)
- the movable core 13 is provided at its lower,end with plate 2-1, slotted at either side so as to ride on guides of frame 25, which carries on its lower side the set-screw and lock-nut 26, adapted for adjustment of the core.
- This plate 24 has marked upon it a point or line by means of the relation between which and marks placed upon the vertical portion of the frame 25 adjustment may be ascertained.
- a block supporting a handle 37 having a lim ited pivotal movement.
- a pin 28 Near the upper end of this block is loosely seated one end of a pin 28, kept under the control of said block by stop-pin 34, driven into the block and projecting into a detentin said pin 28.
- the handle 37 is pushed forward in the operation of closing the switch, it presses pin 28 forward to engage lever or cam 29, which I shall hereinafter designate as cam to more readily distinguish it from the lever 19.
- Cam 29 is pivoted at 30 and is actuated to press upon the end of lever 19, which is pivoted at 33, causing it to engage with head 18 of the pin 16 and to lift the movable core 17 to its highest position in the coil, and at the same time latch 14, being spring-actuated, engages the lower edge 35 of the bridge, holding the switch closed against the action of the springs 36, wound around the pivots of arms 21.
- the slot 38 in cam 29, into which projects stop-pin 39, fixed upon latch 14, permits of such further movement of the cam 29, after the closing and latching of the switch, as may be necessary to allow lever 19 to fall away from head 18.
- handle 37 When handle 37 is released, it falls backto the limit of its pivotal movement, which may be regulated by the pin 28,
- Adjustment of core 17 may be secured by any suitablemeans of limiting the distance which the core maybe drawn upward into thecoil.
- a non-magnetic washer may be used to prevent the sticking of cores-17 to fixed core 15.
- the arms 21 are pivoted at some distance ar ms rotate about "the opposite side of their pivots from'that of the switch-bridge and are adapted to engage with spring clips-or 'jaws 40 to gradually arrest their motion until they T arrest them.
- 43 is connected with one of the contact-jaws 23, the other contact-jaw 23 being connected with one end of coil 9 and j the other-end of the coil 9 connected through 5c the nnderload-coil 10 with the binding-post 44, as shown in'diagram'in Fig. 6.
- the following means may be'employed for the actuation of the switch bythe cumulative o r differential effect of two or more coils, the same "55- being either'in series with the switch or in a circuit or circuits independeht'ot it, either in whole or in part.
- the ,underloadcbil may be varied in -a similar manner either when used independently or in combination with any of the above arrangements-as, for instance, said coil may be in two sections so connected; as to mutu ally assist each other, one section being on each side orleg of the circuit, as shown in Fig.'-10; or it may'be'in shunt with the main circuit, as shown in Fig. 11, where asinglepole switch is employed, and in Fig; 12, where a double-pole switch'is employed; or it may be ina separate circuit from that to be opened by it, as shown inFig. 13. Additional binding-posts are added to the base as means for introducing into the device one or morecurrents eitherto afiect or be afiected by the actuation of the device, as above described.
- the bridge 20 instead of being the conducting medium. between the contact-jaws 23, as abovede'scribed, m'aybe insulated from the arms 21, said arms being adapted to act as bridges to contact the contact-jaws 45 with 46 and 4 7 with 48, as 'sho.wn in Fig. 4. It will be noticed that instead ot theseconnec'ting-bridges being horizontal, as
- I may-have a single -jaoketed coil and movable corefas already described for the overflow'actnation, with anelectromaguet '50, as shown in Fig.
- the knob 37 is mounted on -the plate 53;attached to switch-bridge and having a certain amount .of play. The upperpart of this plate 53 protrudes over the switch-bridge and'is adapted:
- the movable one may be threaded through the end plate andprovided with a knurled head, so that adjustment may be obtained by regulating thedis-- tance between the eudsof the movable and fixed cores.
- said core adapted to be held within the coil during normal flow of current through the coil but to fall by force of gravity upon an interrupted or predetermined below-normal' flow, a rod attached 'to the ,movable core, a lever adapted to engage with the rod and to be actuated by the rod, a cam adapted to engage with the said lever and to be actuated byit and a latch adapted to restrain the switch and to be actuated by the cam upon .the movement of the movable core communicated to it through the rodand lever to release the switch.
- an automatic magnetic circuit-breaker the combination with a switch and contacts of a coil having a fixed and movable core, alatch adapted to engage with the switch, springs adapted to actuate the switch-arms, contact- .J'awsadapted to receive portions of the switcharms, an electromagnet and apivoted armature placed above the latch, saidarmature adapted upon interrupted or predetermined below-normal flow of current to leave the electromagnet and impinge the latch to actuate it to releasethe switch, the movablecore adapted to be actuated by a predetermined overflow of current, the'pin movable through the fixed core adapted to communicate the movement of the movable core to the latch to actuate it to release the switch-arms and drive them from contact.
- an automatic magnetic circuit-breaker the combination with a switch and contacts of a coil, a fixed and movable core, an electromagnet and a pivoted armature, a latch adapted to engage with the switch, the pivoted switch-arms and contact jaws for same, the plate mounted on switch-bridge having a limited movement thereon and having its upper part protruding over the front of the the combination with a switch and contacts of switch-bridge adapted when forced forward underflow of currentto leave the magnet and by the hand in the operation of closing the impinge the latch to actuate it to releasethe switch to engage with the armature of elecswitch-arms.
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Description
4 Sheets-Sheet 1.
(N0 Modeli) W. M. SCOTT. AUTOMATIC MAGNETIC CIRCUIT BREAKER. No. 592,100.
Patented Oct. 19,1897.
4 7h flown INVENTOR.
WITNESSES ATTORNEY (No Model.) 4 Sheets-Sheet 2.
W. M. SCOTT. AUTOMATIC MAGNETIC CIRCUIT BREAKER. No. 592,100. Patented Oct. 19,1897.
WITNESSES: 727. co-z? INYENTOR ATTORNEY.
(No Model.) 4 SheetsSheet 3.
W. M. SCOTT. AUTOMATIC MAGNETIC CIRCUIT BREAKER. No. 592,100.
Patented Oct. 19,1897.
INVENTOR.
BY WM ATTORNEY.
WITNESSES 4 Sheets-Sheet 4.
(No Model.)
W. M. SCOTT. AUTOMATIC MAGNETIC CIRCUIT BREAKER. No. 592,10 0.
Patented Oct. 19, 1897.
74 M INVENTOR.
BY x.
6 MTORNEY.
UNITED STATES PATENT OFFICE.
WILLIAM M. SCOTT, OF PHILADELPHIA, PENNSYLVANIA, ASSIGNOR TO THE CUTTER ELECTRICAL AND MANUFACTURING COMPANY, OF
NE 'W JERSEY.
AUTOMATIC MAGNETIC CIRCUIT-BREAKER.
SPECIFICATION forming part of Letters Patent No. 592,100, dated October 19, 1897. Application filed Inch 17, 1897. Serial No. 827,978. K model.)
To all whom it may concern:
Be it known that I, Wmuam M. Scorr, a citizen of the United States, residing at Philadelphia, in the county of Philadelphia and State of Pennsylvania, have invented a new and useful Automatic Magnetic Circuit Breaker, of which the following is a specification.
My invention relates to automatic magnetic ro circuit-breakers, and the object of my improvement is to provide a circuit-breaker which will be actuated to open the circuit or circuits either upon 'a predetermined maximum or minimum flow of current having conr 5 venient means of exact adjustment, means of introducing into the device current or currents in various'ways, either to actuate it or to be aifected by its actuation, with means for increased efliciency in actuation.
In the accompanying drawings, Figurel is a front view of one form of my circuit-breaker, showing two jacketed coils side by side. Fig. 2 is a side view of same in partsection. Fig. 3 is a top view of same. Fig. 4 is a front view of another form of my circuit-breaker having double poles and showing but one solen oid-coil and movable core with an electromagnet placed over the core havingapivoted armature. Fig. 5 is a side view of same in part section. 6 to 13 are diagrams showing various arrangements for introducing currents into the device either to actuate it or to be afiected by its actuation. Fig. 14 is a view in perspective of a portion of switch arm and hub thereon.
In Fig. 1, 6 is the base-block of non-magnetic material upon which are mounted two magnetic jackets 7 and 8, each containing a solenoid'coil 9 and 10, respectively. Each coil surrounds a non-magnetic tube, which contains at its upper end a. fixed magnetic core, and below the fixed magnetic core a movable core. The fixed core 11 has passing through it longitudinally a movable magnetic pin 12, adapted to communicate the impact of core 13 to latch 14, the ends of the fixed and movable cores being so shaped that a portion of one is adapted to overlap a portion of the other, so that the shortest distance between the two is less than their axial separation. The fixed core 15 has passing through it longitudinally the movable non-magnetic rod 16, secured to the movable core 17, and is provided with a head 18, adapted to engage with lever 19. The section of one or both of these cores immediately at point of contact may be reduced to obtain increased pull. The switch-bridge 20 is mounted upon arms 21. The contacts of the switch-bridge are at 22 adapted to engage with the switch-jaws 23. (Best shown in Fig. 3.) p The movable core 13 is provided at its lower,end with plate 2-1, slotted at either side so as to ride on guides of frame 25, which carries on its lower side the set-screw and lock-nut 26, adapted for adjustment of the core. This plate 24: has marked upon it a point or line by means of the relation between which and marks placed upon the vertical portion of the frame 25 adjustment may be ascertained.
To the switch-bridge 20 is pivoted at 27 a block supporting a handle 37, having a lim ited pivotal movement. Near the upper end of this block is loosely seated one end of a pin 28, kept under the control of said block by stop-pin 34, driven into the block and projecting into a detentin said pin 28. \Vhen the handle 37 is pushed forward in the operation of closing the switch, it presses pin 28 forward to engage lever or cam 29, which I shall hereinafter designate as cam to more readily distinguish it from the lever 19. Cam 29 is pivoted at 30 and is actuated to press upon the end of lever 19, which is pivoted at 33, causing it to engage with head 18 of the pin 16 and to lift the movable core 17 to its highest position in the coil, and at the same time latch 14, being spring-actuated, engages the lower edge 35 of the bridge, holding the switch closed against the action of the springs 36, wound around the pivots of arms 21. The slot 38 in cam 29, into which projects stop-pin 39, fixed upon latch 14, permits of such further movement of the cam 29, after the closing and latching of the switch, as may be necessary to allow lever 19 to fall away from head 18. When handle 37 is released, it falls backto the limit of its pivotal movement, which may be regulated by the pin 28,
handle 37. away from cam 29, so that lever 19 falls away from head 18, leaving the movable core'17 frceto fall at-themoment of interrupted current or predetermined underflow. .Upon the fall of'core 17 the head18 will again contact with lever 19, causing. the edge of slot 38 to contact with stop 39, actuating latch 14 to release the switch-arm.
Adjustment of core 17 may be secured by any suitablemeans of limiting the distance which the core maybe drawn upward into thecoil. A non-magnetic washer may be used to prevent the sticking of cores-17 to fixed core 15.
'Another'form or adjustment for. cores 17 and His tohavecore 15 in two parts, as sh wn-in-Fig. 1that is, 15 being the fixed core and 15' being the adjustable core adapted to move to and from core 15o r the purpose of changing flow, thereby altering the pull between 15 and 17 without changing the dis- 'tauce between them,
.The arms 21 are pivoted at some distance ar ms rotate about "the opposite side of their pivots from'that of the switch-bridge and are adapted to engage with spring clips-or 'jaws 40 to gradually arrest their motion until they T arrest them.
in'their supporting-lugs independently'of the 40 springs 36 which actuate them. .The carbons are yieldingly, attached tothe support of the contact-jaws 23 to contact'with carbons 56, attached to switch blades or arms 21 to prevent arcing at themain contacts.
at 43 and 44. 43 is connected with one of the contact-jaws 23, the other contact-jaw 23 being connected with one end of coil 9 and j the other-end of the coil 9 connected through 5c the nnderload-coil 10 with the binding-post 44, as shown in'diagram'in Fig. 6. The following means may be'employed for the actuation of the switch bythe cumulative o r differential effect of two or more coils, the same "55- being either'in series with the switch or in a circuit or circuits independeht'ot it, either in whole or in part.
-The ovcrload;coilfmay be in two sections, j
' 96 connected as to mutually. assist each other,
one section beingon each side or leg of the circuit, shown indiagramin Fig.7, or the coil maybe-in'shunt to the circuit in which the switch to .be operated n'ponis placed, as shown in' Fig. 8, or the coil may be in a circuit entirely independent '0! the 7 switch, as sh'ow'n in .Fig. 9.- The windingot from their lower ends, so that portions of the The binding-posts, as shown in Fig." 1, are
the ,underloadcbil may be varied in -a similar manner either when used independently or in combination with any of the above arrangements-as, for instance, said coil may be in two sections so connected; as to mutu ally assist each other, one section being on each side orleg of the circuit, as shown in Fig.'-10; or it may'be'in shunt with the main circuit, as shown in Fig. 11, where asinglepole switch is employed, and in Fig; 12, where a double-pole switch'is employed; or it may be ina separate circuit from that to be opened by it, as shown inFig. 13. Additional binding-posts are added to the base as means for introducing into the device one or morecurrents eitherto afiect or be afiected by the actuation of the device, as above described.
Supposing the switch to be closed in the positionshown in Fig. 2 upon the occurrence ofa predetermined overflow, the magnetic core 13 is drawn upward toimpact the pin 12 to actuate the latch 14, thus opening the circuit, or instead of the overflow, upon the occurrence of an interrupted or a suificientlye below-normal current, the movable core l'l'is.
permitted to fall and actuate lever '19 to actuate through cam 29 the latch 14 to release the switch. Where it is desired to have a double-pole switch, the bridge 20, instead of being the conducting medium. between the contact-jaws 23, as abovede'scribed, m'aybe insulated from the arms 21, said arms being adapted to act as bridges to contact the contact-jaws 45 with 46 and 4 7 with 48, as 'sho.wn in Fig. 4. It will be noticed that instead ot theseconnec'ting-bridges being horizontal, as
the bridge shown in Fig, 1, theyare in a vertical position when closed-and move in 'vertical plan'csparallel \vitl'l 'eachot-h'er, and the jaws of opposite 'polarityare thus separated'by a greater distancethan otherwise would be available in the limited space,'and' the bridges of op'posi te polarity-move in different planes separated from each other.. 1
Instead of. having two coils {and movable cores, as shown in.Fig. 1, I may-have a single -jaoketed coil and movable corefas already described for the overflow'actnation, with anelectromaguet '50, as shown in Fig. 4;, died over the latch which holds the switch-bridge a'nd armature 51, piyoted at 52, adapted to be held by themagnst either against the force of gravity or spring actuation during thenop' mal flow of current and upontheinterruption of the current :orbelow-norma'l how to leave the magnet and strike latch 14,- act-nab ing it to releasetheswitch-bridgej The knob 37 is mounted on -the plate 53;attached to switch-bridge and having a certain amount .of play. The upperpart of this plate 53 protrudes over the switch-bridge and'is adapted:
when forced forward by the hand in the eration of closing theswitch to engage with magnet, where it is held during themormal iio 5130 the armature forcing it against the elect-1o" flow of current, and upon releasing thehand the plate fallsaway from the armature, leaving it free to fall upon the interruption of the current to actuate the latch. By having the core of the e'lectromagnet in two parts, one fixed and the other movable, themovable one may be threaded through the end plate andprovided with a knurled head, so that adjustment may be obtained by regulating thedis-- tance between the eudsof the movable and fixed cores. p What I claim as my invention, and desire to secure by Letters Patent,- is--. v 1. In an autom atic magnetic circuit-b reaker the combination with a switch and contacts of a spring adapted to actuate the switch,a latch adapted to restrain the switch against the action of the spring, two coils each provided with a movable core,- one core adapted to be actuated by a predetermined magnetic flux to rise in the coil and a pinadapted to communicate the force of the cores movement to the latch to release the switch, the other core adapted to be held within its coil during normal magnetic fiux and to fall upon the occur' renceof an interrupted or predetermined subnormal magnetic flux and a rod attached to the core, a lever adapted to be actuated there-' by and a cam adapted tobe actuated by thelever to actuate the latch to release the switch. 2. Inan au tomatic magnetic circuit-breaker the combination with a switch and contacts of springs adapted to actuate the switch, a latch 4 adapted to restrain the switch-against the ac-' tion of the springs, two coils, each provided with afixed and movable core, one'movable core'adapted -to be actuated. by a predetermined magnetic flux to rise in the coil and a pin adapted to communicate the force of the cores movement to the latch to release the switch, the other movable core adapted to be held within its coil during normal magnetic adapted to restrain the switch against theseflux and tofall upon the occurrence of an interrupted or predetermined subnormal magnetic fiux and a rod'attache'd to the core, a lever adapted to be actuated thereby and a cam adapted to be actuated by the lever to actuate the latch-to release the switch.-
3. In an automatic magnetic circuit-breaker 'the'combination with a switch and contacts of springs adapted to actuate'the switch, a latch tionof the springs, a coil provided with a movable core', a rodv attached to said core, a lever adapted to actuate and to be actuated by said rod, a cam adapted to actuateand to be actuated by said lever and also adapted to actuate the latch, aresetting-handle pivoted on the switch-arm with limited movement adapted to actuate the cam to actuate the lever to raise the movable core simultaneously withthe movable core, a lever adapted t'oengage with the rod to actuate the rod and to' be actuated by the rod, a cam adapted to engage with said lever to actuate and to be actuated by said le'ver,a resetting-handle pivoted to the switch arm adapted to actuate the cam to actuate the lever and a latch adapted to be actuated by said cam upon its being actuated by the movement of the core communicated to it through the rod and lever to release the switcharm.
5. Inan automatic magnetic circuit-breaker a coil and a core vertically movable therein;
said core adapted to be held within the coil during normal flow of current through the coil but to fall by force of gravity upon an interrupted or predetermined below-normal' flow, a rod attached 'to the ,movable core, a lever adapted to engage with the rod and to be actuated by the rod, a cam adapted to engage with the said lever and to be actuated byit and a latch adapted to restrain the switch and to be actuated by the cam upon .the movement of the movable core communicated to it through the rodand lever to release the switch.
a 6. In an automatic magnetic circuit-breaker the combination with aswitch and contacts of a coil having a movable core, switch-arms provided with hubs as means of adequate bearings on their pivots and guards .to maintain each arm at a fixed distance from either side of its pivot-lug to aiford space for the springs actuating said switch-arms, spring-jaws attached to each of said lugs as means of receiving the projecting ends of the switch-arms to check; and stop-plates back of the spring-' jaws to finally arrest, the pivotal movement of the switch-arms.
7. In an automatic magnetic circuit-breaker the combination with a switch and contacts of a coil having a fixed and movable core, alatch adapted to engage with the switch, springs adapted to actuate the switch-arms, contact- .J'awsadapted to receive portions of the switcharms, an electromagnet and apivoted armature placed above the latch, saidarmature adapted upon interrupted or predetermined below-normal flow of current to leave the electromagnet and impinge the latch to actuate it to releasethe switch, the movablecore adapted to be actuated by a predetermined overflow of current, the'pin movable through the fixed core adapted to communicate the movement of the movable core to the latch to actuate it to release the switch-arms and drive them from contact.
8. In an automatic magnetic circuit-breaker the combination with a switch and contacts of a coil, a fixed and movable core, an electromagnet and a pivoted armature, a latch adapted to engage with the switch, the pivoted switch-arms and contact jaws for same, the plate mounted on switch-bridge having a limited movement thereon and having its upper part protruding over the front of the the combination with a switch and contacts of switch-bridge adapted when forced forward underflow of currentto leave the magnet and by the hand in the operation of closing the impinge the latch to actuate it to releasethe switch to engage with the armature of elecswitch-arms.
tromagnet to force itagainst the magnet and WM. M. SCOTT. upon releasing the hand the said plate adapted \Vitnesses:
to fall away from the said armature to leave JN'OLSTOKES ADAMS,
it free upon .i nterrup'ted or predetermined- JOHN XV. REEVE.
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US592100A true US592100A (en) | 1897-10-19 |
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