US754505A - Automatic circuit-breaker. - Google Patents
Automatic circuit-breaker. Download PDFInfo
- Publication number
- US754505A US754505A US1903161985A US754505A US 754505 A US754505 A US 754505A US 1903161985 A US1903161985 A US 1903161985A US 754505 A US754505 A US 754505A
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- Prior art keywords
- trigger
- circuit
- latch
- breaker
- actuating
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H73/00—Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism
- H01H73/36—Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism having electromagnetic release and no other automatic release
- H01H73/42—Protective overload circuit-breaking switches in which excess current opens the contacts by automatic release of mechanical energy stored by previous operation of a hand reset mechanism having electromagnetic release and no other automatic release reset by rotatable knob or wheel
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/11—Tripping mechanism
Definitions
- My invention relates to automatic magnetic circuit-breakers whose function is to interrupt an electric circuit when any abnormal or undesired conditions obtain in a circuit. These undesirable conditions may be abnormal current-flow, reversed currentfiow, underload, low voltage, excessive voltage change, or any other abnormal conditions likely to arise in an electric circuit.
- My invention relates particularly to im provements whereby the shunt-contact piece may be quickly and securely replaced without resource to screws, riveting, soldering, or the like.
- My invention consists, further, in improvements in the tripping mechanism of an automatic circuit-breaker whereby automatic circuit-breakers of different capacities having tripping mechanism of different dimensions or types may be used to cooperate with each other as multicircuit circuit-controllers, in which the tripping mechanisms of the different controllers are so interconnected mechanically that when one circuit-breaker is tripped by itsmagnet all the others will be simultaneously tripped in virtue of the mechanical connection aforementioned.
- My invention consists, further, in connection with the armature of the tripping-magnet, of means for adjusting with nieety the relative position of the armature with respect to the pole-pieces, such means having for its essential feature a warped surface upon which rests a projection from the armature member and between which projection and warped sur- Serial No. 161,985. (No model.)
- circuitbreakers of different capacities, and hence of different dimensions mounted in juxtaposition upon a base or panel, such circuit-breakers being required to open simultaneously upon the occurrence of any abnormal condition in any one of the multivoltage circuits. It is to meet such requirements that the devices aforementioned are particularly adapted.
- Figure 1 represents in side elevation an automatic circuit-breaker for controlling currents reaching values as high as many thousands of amperes.
- Fig. 2 is an end view of an electromagnetic tripping mechanism employed in a circuit-breaker of the same general type as that shown in Fig. 1, but which is designed for the control of relatively smaller currents than in the caseof the switch shown in Fig. 1.
- Fig. 3 is a front view of the electromagnet shown in Fig. 2.
- Fig. 4 is a view of two circuit-breakers of different capacities mounted upon the same panel having dissimilar tripping mechanism mechanically interconnected, so that when one circuit-breaker operates the other shall operate simultaneously.
- Fig. 2 is an end view of an electromagnetic tripping mechanism employed in a circuit-breaker of the same general type as that shown in Fig. 1, but which is designed for the control of relatively smaller currents than in the caseof the switch shown in Fig. 1.
- Fig. 3 is a front view of the electromagnet shown in Fig. 2.
- Fig. 4 is
- FIG. 5 is a diagrammatic view of a multivoltage circuit including circuit-breakers as shown in Fig. 4.
- Fig. 6 is a perspective view of a metalic shunt-contact piece capable of ready insertion and removal.
- Fig. 7 is a View of an end of a spring aiding in the support of the metallic shunt-contact shown in Fig. 6.
- Fig. 8 is a view showing a plurality of shunt-contact-s of the kind shown in Fig. 6 supported by leaf-springs.
- Fig. 9 is a side view showing the metallic shunt-contact of Fig. 6 secured in position.
- Fig. 10 is afront view of an armature-adjusting device.
- Fig. 11 is a transverse view of Fig. 10, taken at the line 11 11.
- Fig. 12 is an enlarged view of the tripping mechanism shown in Fig. 1.
- Fig. 18 is an end view of the mechanism shown in Fig. 12, Fig.
- Fig. 14 is a front view of the tripping mechanism shown in end view in Fig. 2.
- Fig. is a view in elevation looking at the rear of main contact-block 3 and having the magnet 50 embedded therein.
- A represents an automatic magnetic circuit-breaker adapted to control relatively great currents.
- 1 represents a base of insulating material, such as a switchboard, to which are secured the massive copper terminal blocks 2 and 3, secured to the switchboard or base by means of the screwthreaded studs 4: and 5, which serve also as electrical connections with said terminal block.
- 6 represents a laminated bridging member supported by and insulated from the pivoted arm 7, having its pivotal connection with the base of the instrument at 8.
- Secured to and insulated from an upper extension of the arm 7 are the metallic springs 9 and 10 for supporting the metallic shunt-contact piece 11, which engages the stationary metallic shunt-contact 16.
- a movable shunt carbon contact pivoted with respect to the arm 7, insulated therefrom, but in electrical communication with the contact 11.
- the stationary shunt-carbon which cooperates in the well-known manner with the carbon 18.
- the circuit-breaker opens, circuit is first broken between the laminated bridge 6 and the main terminal blocks 2 and 3. Later the shunt metallic contacts 11 and 16 separate, and circuit is finally broken at carbons 17 and 18, between which the final arc occurs.
- These shunt-contacts remove the arcing from the engaging faces of the terminal blocks 2 and 3 and the bridging member 6.
- the metallic shunt-contact 11 is best understood by an inspection of Fig. 6, where it is shown in perspective.
- a slot 15 Extending for a considerable portion of its length is a slot 15, and in its one face, the face opposite its contact-face, is the groove or channel 14:.
- a tongue 12 On the upper end of the metallic spring 9 and integral therewith is a tongue 12, adapted for insertion and fit into and within the channel 14.
- the downward pressure exerted by the ends of the springs 10 force the block 1A along the tongue 12 until the shoulders between the tongue 12 and the spring 9 engage the lower end of the block 1 1. lVhen this relation exists, the block 14: is securely held from play or motion in any direction and is easily and quickly detachable, though forming good electrical connection with the springs 9 and 10.
- the laminated bridging member 6 is cramped in circuit-closing position, as shown in Fig. 1, by means of the toggle 19 20.
- the togglelink 20 extends toward the right of its pivot and terminates in the operators handle 21.
- the member 24 is also pivoted at 26 and has an extension 27, which embraces the vertical rod 28, secured at its lower end in the plate 30, secured to the frame of the instrument.
- the actuation of the member 2a serves at once to disengage the latch 23 from the roller 22 and also to impart to said roller 22 a blow which aids in opening the switch.
- Surrounding the rod 28 is the spiral spring 29. (Shown compressed by the extension 27 in Fig. 1.)
- Secured to the extension 27 is the hook or latch member 38, which is engaged by the detent 32, pivoted at 31 in the plate 30. As shown in Fig. 1, this detent 32 holds the extension 27in such position as to compress the spring 29.
- the detent 32 extends downwardly below its pivot 31 by a portion, as indicated at 33.
- 36 is a vertically-extending member, also pivoted at 31, and engages with its upper extremity with the extension 39, forming a portion of the armature-support 48, pivoted at 40 to the frame of the instrument.
- the armature 49, supported by member 18, cooperates with the pole-pieces of an electromagnet comprising a U-shaped mass of iron embedded in the main terminal block 3 and located between said terminal block and the switchboard or base.
- a screw 35 In the lower portion of the member 36 is a screw 35, adapted to engage the portion 33 at the lower end of the detent 32.
- the toggle 19 and 20 collapses under the combined influences of gravity and the springs 72 and 73, attached to the frame and to arm 7 and link 20, respectively, causing the member 7 to rotate in a clockwisedirection about its pivot 8, and thus carrying the bridging member 6 away from the terminal blocks 2 and 3, later the contact 11 from its associate 16, and finally carbon 18 from its associate 17, thus completely rupturing the circuit.
- the tripping device is therefore in the nature of a hairtrigger, comprising the members 32 and 38, which control the power-spring 29.
- the circuitbreaker may be tripped most satisfactorily and positively, the electric magnet of any circuit-breaker supplying the energy or power for tilting, through the agency of the bar 37, all the members 36 or similar members of the several circuit-breakers, thus simply unlatching the almost frictionless trigger comprising the members 32 and 38 or similar arrangements in the several circuitbreakers, the power for actually tripping each circuitbreaker being derived from a spring or other device in each circuit-breaker.
- a hair-trigger is employed to control the power or energy which actually trips the circuit-breaker, and the delicate hair-trigger isfactuated by the electromagnetic device in each circuit-breaker.
- block 43 which rests on one of its long flat faces upon a machined or smoothed surface on the upper side of the plate 43.
- a screw 44 engaging within the block 43 such screw having a convenient thumb-screw 47.
- the shape of the block 43 is that of a wedge and has a surface 42, which is a warped surface, on which bears the extremity of the .armature member 41.
- ture member 41 is of considerable extent, and
- the armature 49 will be at a relatively great 46 is a pointer or projection from the block 43, which extends through a slot in the plate 45, and upon this plate 45, extending across the front of the circuit-breaker and hiding the block 43 and appurtenances, are the graduations of the current.
- the armature 49 is in such position that with the current of the magnitude indicated by the pointer 46 on the plate 45 the circuit-breaker will open.
- Fig. 2 represents the lower main terminal block of a switch of the same general type as that shown at A.
- the switch is of a lower capacity than that shown at A, and in order to economize space and material and still obtain a suificiently great magneto-motive force'to open the circuitbreaker it is necessary to arrange the magnet with respect to the terminal so that a maximum magnetic flux will beobtained.
- the main terminal bloc 3 has a portion of 3 which is engaged by a laminated bridging member similar to 6. 3 has a downwardlyextending portion 74. It is then turned toward the left in a horizontal portion and terminates in a reasccnding portion 76.
- pole-pieces are integral with the mass 53 and extend slightly above the surface of the main terminal 3.
- the pole-piece 51 is just twice the width of either pole-piece 51, and the path of the magnetic lines is, as viewed in Fig. 3, from the pole-piece 51 through the main portion 53 to the left-hand pole-piece 51 and similarly from the pole-piece 51 through the right-hand portion of the mass 53 to the righthand polepiece 51.
- armature 5 mounted in front of these pole-pieces is armature 5 1, pivoted at 55 and having a horizontal extension 56, which rides or rests upon a warped surface 57 of the block 57, which is engaged by the thumb-screw 58 and carries the indicating pointer or stud 59.
- the operation is similar to that described in connection with the circuit-breaker A.
- armature 5 pivoted at 55 and having a horizontal extension 56, which rides or rests upon a warped surface 57 of the block 57, which is engaged by the thumb-screw 58 and carries the indicating pointer or stud 59.
- the operation is similar to that described in connection with the circuit-breaker A.
- the latch 65 At 60 is a pivot upon which is mounted the latch 65, engaging the member 66, which operates the main latch of the circuit-breaker in a manner similar to that of the element 27 of the circuit-breaker A.
- the latch or hair-trigger has a downwardlyextension portion 64:, which is engaged by the set
- this member61 bears upon the top surface of the extension 56 of the armature 5 1.
- the rod 37 which is the same rod appearing in the circuit-breaker A. It is by this rod that the tripping mechanisms of the two or more types or sizes of circuit-breakers areconnected together.
- the operation is as follows: hen a sufliciently large current -that is, a current corresponding with that marked at the groove opposite the pointer 59-passes through the terminal block 3, the armature 5 1 is attracted, and thus presses forwardly upon the upper extremity of the member 61, rotating such member in a counterclockwise direction about its pivot 60.
- the set-screw 63 then tilts the hair-trigger 65 in a counterclockwise direction about the same pivot 60, releasing the member 66, to which power is applied, as in the case of the circuit-breaker A, and the circuit-breaker tripped.
- This electromagnet and tripping mechanism as disclosed in Figs. 2 and 3, is, as aforestated, employed upon a circuit-breaker of a lower capacity than that shown at A, which circuitbreaker is represented at B in Figs. a and 5 and is adapted to cooperate with the circuitbreaker A under certain conditions.
- Fig. 4f the two types of circuitbreakers A and B are mounted upon the same base 1. Though only two circuit-breakers are shown to be so mounted, it is to be understood that any number of circuit-breakers of different types or having tripping mechanisms of different types are to be so mounted.
- 62 is a convenient handle by means of which all the circuit-breakers may be tripped by hand at any desired moment and before the current in any one circuit has obtained its critical value.
- the circuitbreakers A and B are not of exactly the same dimensions and their tripping mechanisms are differently disposed, as heretofore described.
- the circuit-breaker A is of the larger capacity, while the circuit-breaker B has a relatively smaller capacity, and yet it is desirable under certain circumstances that all the circuitbreakers open at once, even though it is one of the lower-capacity circuit-breakers that is electrically tripped.
- Fig. 5 is shown a multivoltage system or circuit, including the main generator Gr, from which extend the main leads 67 and 68. Joined in series with each other and connected .between the leads 67 and 68 are the subsidiary generators 69, 70, and 71. From these generators extend the additional conductors 77 and 78. This forms the well-known multivoltage circuit between whose different conductors different potentials may be obtained.
- the large-capacity circuit-breakers A are connected in series in the conductors 67 and 68, while the low-capacity circuit-breakers B are connected in series in the conductors 77 and 78.
- the current taken off of the conductors 77 or 78 is in general less than that taken off of the outer conductors 67 and 68, and in consequence it would be unnecessarily expensive and costly for the conductors 77 and 78 to be supplied with circuit breakers of a capacity equal to the capacity of the greatest circuit-brealn-n' necessary, such as A.
- circuit-breakers of smaller capacity for the subsidiary conductors of a multivoltage system which shall cooperate with the circuitbreakers in the main conductors and having a greater capacity.
- circuitbreakers of different capacities, as herein described, cooperating with each other, but included in circuits other than multivoltage circuits or in absolutely independent circuits.
- What I claim is 1.
- separable cooperative contacts separable cooperative contacts, a latch for restraining said contacts in normal position, means actuated by locally-stored energy for oper ating said latch, a trigger restraining said latclroperating means, a member pivoted concentrically with said trigger for operating said trigger, and electromagnetic means for tilting said trigger-operating means.
- a contact comprising a mass of conducting material having a re cess therein, means engaging loosely in said recess, and a member loosely engaging said mass and cooperating with said means to lock said mass in position.
- a contact comprising a conducting mass having a plurality of recesses therein, means engaging loosely in a recess, and a member loosely engaging in another recess, whercby said mass is locked in position.
- a shunt-contact comprising a conducting mass, a slot in said mass, a supporting-spring engaging in said slot, a groove in said mass, and a spring engaging in said groove.
- each tripping mechanism comprising a trigger-eontrolled member actuated by locally-stored energy, a triggeroperating member, and a mechanical connection between the trigger-operating members of all the switches.
- each switch having a tripping mechanism comprising a trigger-controlled member actuated by locally-stored energy, a pivoted triggeractuating member, and means for causing the simultaneous action of the trigger-operating members of all the switches.
- each switch having a tripping mechanism comprising a trigger-controlled member actuated by locally-stored energy, a trigger-actuating member, and electroresponsive means for actuating said triggeractuating means, and
- a plurality of automatic circuit-breakers of different capacities each having a tripping mechanism comprising a tripping-lever, actuated by locally-stored energy, a hair-trigger restraining said lever, a trigger-actuating member, an electroresponsive means controlling said trigger-actuating member, and a mechanical connection between the trigger-actuating members of all the circuit-breakers.
- a movable switch member adapted to cooperate therewith, means for restraining said movable switch member in normal position, means tor actuating said restraining means and for delivering a blow to the movable switch member, a local source of energy for operating said actuating means, and a trigger controlling said source of energy.
- a base fixed contacts, a movable switch member cooperating therewith, a latch for restraining said movable switch member in normal position, amember for actuating said latch by locally-stored energy, and a trigger pivoted to the base for controlling said member.
- a base In an electric switch, a base, contacts secured thereto, a movable switch member cooperating with said contacts, a latch for restraining said switch member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, and means pivoted to said base for actuating said trigger.
- a base fixed contacts, a movable switch member adapted to cooperate therewith, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a spring for operating said member, and a trigger pivoted to the base For controlling said spring.
- a base In an electric switch, a base, fixed contacts, a movable switch member cooperating therewith, a latch for restraining said movable switch member in normal position, a member tor actuating said latch, a trigger for controlling said member, and a trigger-actuating member, said trigger and its actuating memher being pivoted to the base concentrically with each other.
- a base In an electric switch, a base, terminal blocks secured thereto, a laminated bridging member adapted to cooperate with said terminal blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch by locally-stored energy, and a trigger pivoted to the base for controlling said actuating member.
- a base In an electric switch, a base, terminal blocks secured thereto, a laminated bridging member adapted to cooperate with said terminal blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, and means pivoted to said base for actuating said trigger.
- a base In an electric switch, a base, terminal blocks secured thereto, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a trigger for controlling said actuating member, and a trigger-actuating member, said trigger and its actuating member, being pivoted to the base concentrically with each other.
- a base In an automatic circuit-ln'eaker, a base, fixed contacts mounted thereon, a movable switch member cooperating with said contacts, a latch for restraining said movable switch member in normal position, a latchactuating member operated by locally-stored energy, a trigger for controlling said actuating member, and electroresponsive means secured to said base t'or controlling said trigger.
- a base fixed contacts, a movable switch member eooperating with said contacts, a latch for restraining said movable switch member in nor mal position, a latch-actuating member operated by locally-stored energy, a trigger pivoted to the base for controlling said actuating member, and electroresponsive means for controlling said trigger.
- a base In an automatic circuit-breaker, a base, contacts secured thereto, a movable switch member cooperating with said contacts, a latch for restraining said switch member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, means pivoted to said base for actuating said trigger, and electroresponsive means for actuating said trigger-actuating means.
- a base fixed contacts mounted thereon, a movable switch member adapted to cooperate with said contacts, a latch for restraining said movable switch member in normal position, amember for actuating said latch, a spring for operating said member a trigger pivoted to said base for controlling said spring, and electroresponsive means for controlling said trigger.
- a base fixed contacts mounted thereon, a movable switch member adapted to cooperate with said contacts, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a spring for operating said member, a trigger pivoted to the base for controlling said spring, means pivoted to the base for actuating said trigger, and electroresponsive means for controlling said trigger-actuating means.
- a base fixed contacts mounted thereon, a movable switch member cooperating with said contacts, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a trigger for controlling said member, a triggeractuating member, said trigger and its actuating mem-' ber being pivoted to the base concentrically with each other, and electroresponsive means for controlling said trigger-actuating member.
- a base In an automatic circuit-breaker a base, contact-blocks fixed thereon, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a spring for operating said latch-actuating member, a trigger pivoted to said base for controlling said spring, and electroresponsive means for controlling said trigger.
- a base In an automatic circuit-breaker, a base, contact-blocks fixed thereto, a laminated member adapted to bridge said contact-blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a spring for operating said member, a trigger pivoted to the base for controlling said spring, means for operating said trigger, and electroresponsive means for controlling said trigger-operating means.
- a base In an automatic circuit-breaker, a base, contact-blocks fixed thereon, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, said latch being pivoted to said base, a member for actuating said latch, a trigger pivoted to the base for controlling said latch-actuating member and electroresponsive means for controlling said trigger.
- a base contact-blocks fixed thereon, amovable laminated member adapted to bridge said blocks, a latch for restraining-said laminated member in normal position, a member for actuating said latch, a trigger for controlling said member, a trigger-actuating member, said trigger and its actuating member being pivoted to the base concentrically with each other, and electroresponsive means for controlling said trigger-actuating member.
- an adjusting means comprising relatively movable members, one of said members having a warped surface and engaged thereon by another of said members.
- an adjusting means comprising relatively movable members, one of said members being of a general wedge shape and having a warped surface engaged by another of said members.
- an electromagnet In a tripping mechanism an electromagnet, an armature therefor, and means for adjusting the position of said armature with respect to said electromagnet comprising a member having a warped surface and a second member engaging said warped surface.
- an electromagnet In a tripping mechanism, an electromagnet, an armature therefor, a pivotal support for said armature, a movable wedgeshaped member having a warped surface, and an extension from said armature-support engaging said warped surface.
- an electromagnet whose conductor has great currentcarrying capacity, an armature for said magnet, means for adjusting the position of said armature with respect to said magnet comprising a member having a warped surface and a second member engaging upon said warped surface, said members being relatively movable.
- a shunt-contact comprising a conducting mass, a recess therein, means engaging loosely in said recess, and a shouldered member loosely engaging said mass.
- a shunt-contact comprising a conducting mass, resilient means engaging in a slot therein, and a resilient comprisingaconductingmass
- resilient means shouldered means engaging said mass. engaging in a recess therein
- a resilient 47 In an electric switch a shunt-contact tongued means engaging in a recess therein. I0 comprising a recessed conducting mass, and WM. M. SCOTT. 5 a member supporting said mass by a locking witnesseses:
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Description
PATENTED MAR. 15, 1904.
W. M. SCOTT.
AUTOMATIC CIRCUIT BREAKER.
APPLICATION FILED JUNE 18, 1903.
3 SHEETS-SHBBT 1.
,4 4 4 M a 5v 3 I Q I a a L 7 z o 5 m 0 M 1 2 i 6 5 04 H 2 Z v4 a 1 4 4 \wflwa W 8 f 3% \10/ 44 1 fl o as a J 32 3 I 9 4 INVENTOR.
WITNESSES ATTORNEY.
No. 754,505. PATENTED MAR. 15, 1904.
' W. M. SCOTT.
AUTOMATIC CIRCUIT BREAKER.
APPLICATION FILED JUNE 18, 1903.
N0 MODEL.
3 SHEETS-SHEET 2.
WITNESSES: INVENTOR.
dmlpwkw ATTORNEY.
PATENTBD MAR. 15, 1904.
W. M. SCOTT. AUTOMATIC CIRCUIT BREAKER.
APPLICATION FILED JUNE 18, 1903.
N. 7 n 4 u an U 6 M T m M 1 m 3 m 1 1 HH.L P 1 y. ,4 8 |flnu .t j f L 2 7 HH q 1 u. -.\4.ll T 1 m n 2 "u u 1 r m 4 H0 MODEL.
1NVNTOR ATTORNEY NORRIS pzrzns co. momumo WASH ms UNITED STATES Patented March 15, 1904.
PATENT CEEICE.
WILLIAM M. SCOTT, OF PHILADELPHIA, PENNSYLVANIA, ASSIGNOR TO CUTTER ELECTRICAL AND MANUFACTURING COMPANY, A CORPORA- TION OF NEW JERSEY.
AUTOMATIC CIRCUIT-BREAKER.
SPECIFICATION forming part of Letters Patent No. 754,505, dated March 15, 1904.
Application filed June 18, 1908.
To all whom it may concern:
Be it known that I, WILLIAM M. SCOTT, a citizen of the United States, residing at Philadelphia, county of Philadelphia, and State of Pennsylvania, have invented a new Automatic Circuit-Breaker, of which the following is a specification.
My invention relates to automatic magnetic circuit-breakers whose function is to interrupt an electric circuit when any abnormal or undesired conditions obtain in a circuit. These undesirable conditions may be abnormal current-flow, reversed currentfiow, underload, low voltage, excessive voltage change, or any other abnormal conditions likely to arise in an electric circuit.
My invention relates particularly to im provements whereby the shunt-contact piece may be quickly and securely replaced without resource to screws, riveting, soldering, or the like.
It relates also to an improved form of electromagnetic tripping device in which the magnet is so combined with the terminal block that a maximum effect shall be obtained with the simplest structure.
My invention consists, further, in improvements in the tripping mechanism of an automatic circuit-breaker whereby automatic circuit-breakers of different capacities having tripping mechanism of different dimensions or types may be used to cooperate with each other as multicircuit circuit-controllers, in which the tripping mechanisms of the different controllers are so interconnected mechanically that when one circuit-breaker is tripped by itsmagnet all the others will be simultaneously tripped in virtue of the mechanical connection aforementioned.
My invention consists, further, in connection with the armature of the tripping-magnet, of means for adjusting with nieety the relative position of the armature with respect to the pole-pieces, such means having for its essential feature a warped surface upon which rests a projection from the armature member and between which projection and warped sur- Serial No. 161,985. (No model.)
face there is a relative movement in passing from one adjustment to another.
In multivoltage systems it is often desirable to employ circuitbreakers of different capacities, and hence of different dimensions, mounted in juxtaposition upon a base or panel, such circuit-breakers being required to open simultaneously upon the occurrence of any abnormal condition in any one of the multivoltage circuits. It is to meet such requirements that the devices aforementioned are particularly adapted.
Reference is to be had to the accompanying drawings, in which* Figure 1 represents in side elevation an automatic circuit-breaker for controlling currents reaching values as high as many thousands of amperes. Fig. 2 is an end view of an electromagnetic tripping mechanism employed in a circuit-breaker of the same general type as that shown in Fig. 1, but which is designed for the control of relatively smaller currents than in the caseof the switch shown in Fig. 1. Fig. 3 is a front view of the electromagnet shown in Fig. 2. Fig. 4 is a view of two circuit-breakers of different capacities mounted upon the same panel having dissimilar tripping mechanism mechanically interconnected, so that when one circuit-breaker operates the other shall operate simultaneously. Fig. 5 is a diagrammatic view ofa multivoltage circuit including circuit-breakers as shown in Fig. 4. Fig. 6 is a perspective view of a metalic shunt-contact piece capable of ready insertion and removal. Fig. 7 is a View of an end of a spring aiding in the support of the metallic shunt-contact shown in Fig. 6. Fig. 8 is a view showing a plurality of shunt-contact-s of the kind shown in Fig. 6 supported by leaf-springs. Fig. 9 is a side view showing the metallic shunt-contact of Fig. 6 secured in position. Fig. 10 is afront view of an armature-adjusting device. Fig. 11 is a transverse view of Fig. 10, taken at the line 11 11. Fig. 12 is an enlarged view of the tripping mechanism shown in Fig. 1. Fig. 18 is an end view of the mechanism shown in Fig. 12, Fig.
12 being taken as a View at the line 12 12. Fig. 14 is a front view of the tripping mechanism shown in end view in Fig. 2. Fig. is a view in elevation looking at the rear of main contact-block 3 and having the magnet 50 embedded therein.
Referring to Fig. 1, A represents an automatic magnetic circuit-breaker adapted to control relatively great currents. 1 represents a base of insulating material, such as a switchboard, to which are secured the massive copper terminal blocks 2 and 3, secured to the switchboard or base by means of the screwthreaded studs 4: and 5, which serve also as electrical connections with said terminal block. 6 represents a laminated bridging member supported by and insulated from the pivoted arm 7, having its pivotal connection with the base of the instrument at 8. Secured to and insulated from an upper extension of the arm 7 are the metallic springs 9 and 10 for supporting the metallic shunt-contact piece 11, which engages the stationary metallic shunt-contact 16. At 18 is shown a movable shunt carbon contact pivoted with respect to the arm 7, insulated therefrom, but in electrical communication with the contact 11. At 17 is shown the stationary shunt-carbon, which cooperates in the well-known manner with the carbon 18. Then the circuit-breaker opens, circuit is first broken between the laminated bridge 6 and the main terminal blocks 2 and 3. Later the shunt metallic contacts 11 and 16 separate, and circuit is finally broken at carbons 17 and 18, between which the final arc occurs. These shunt-contacts remove the arcing from the engaging faces of the terminal blocks 2 and 3 and the bridging member 6. The metallic shunt-contact 11 is best understood by an inspection of Fig. 6, where it is shown in perspective. Extending for a considerable portion of its length is a slot 15, and in its one face, the face opposite its contact-face, is the groove or channel 14:. On the upper end of the metallic spring 9 and integral therewith is a tongue 12, adapted for insertion and fit into and within the channel 14. The upper ends of the springs 10, which are bent in a downward direction, as shown in Fig. 9, fit into and engage in the slot 15. The downward pressure exerted by the ends of the springs 10 force the block 1A along the tongue 12 until the shoulders between the tongue 12 and the spring 9 engage the lower end of the block 1 1. lVhen this relation exists, the block 14: is securely held from play or motion in any direction and is easily and quickly detachable, though forming good electrical connection with the springs 9 and 10. It is in virtue of this construction that a damaged shunt metallic contact may be quickly removed and replaced in the shortest interval of time, because it is not necessary to resort to unscrewing, unriveting, or unsoldering. The laminated bridging member 6 is cramped in circuit-closing position, as shown in Fig. 1, by means of the toggle 19 20. The togglelink 20 extends toward the right of its pivot and terminates in the operators handle 21. To maintain the circuit-breaker in the closed position, there is supplied in an extension from the member 20 a roller or pin 22, which is embraced by the latch 23, pivoted at 26 to the frame of the instrument. 2 1 is a latchoperating member resiliently connected with the latch 23 by means of the spiral spring The member 24: is also pivoted at 26 and has an extension 27, which embraces the vertical rod 28, secured at its lower end in the plate 30, secured to the frame of the instrument. The actuation of the member 2a serves at once to disengage the latch 23 from the roller 22 and also to impart to said roller 22 a blow which aids in opening the switch. Surrounding the rod 28 is the spiral spring 29. (Shown compressed by the extension 27 in Fig. 1.) Secured to the extension 27 is the hook or latch member 38, which is engaged by the detent 32, pivoted at 31 in the plate 30. As shown in Fig. 1, this detent 32 holds the extension 27in such position as to compress the spring 29. The detent 32 extends downwardly below its pivot 31 by a portion, as indicated at 33. 36 is a vertically-extending member, also pivoted at 31, and engages with its upper extremity with the extension 39, forming a portion of the armature-support 48, pivoted at 40 to the frame of the instrument. The armature 49, supported by member 18, cooperates with the pole-pieces of an electromagnet comprising a U-shaped mass of iron embedded in the main terminal block 3 and located between said terminal block and the switchboard or base. In the lower portion of the member 36 is a screw 35, adapted to engage the portion 33 at the lower end of the detent 32. 37 is a bar or rod clamped to the member 36 and insulated therefrom, if of metal, and extends to the tripping mechanisms of other circuit-breakers which it is desired shall open simultaneously with the circuitbreaker shown at A. The operation of the device is as follows: Vhen the current passing through the circuit-breaker attains a predetermined value, the armature 19 is drawn upwardly, which results in the member 39 revolving about its pivot 10 to a slight extent and in a clockwise direction. In consequence the upper extremity of the member 36 revolves to a slight extent in a counter-clockwise direction about its pivot 31 and the screw 35 engages the extension 33 of the latch 32, causing the same to rotate to a slight extent in a counterclockwise direction about its pivot 31, thus releasing the hook or latch member 38. At such release spring 29 expands quickly and forcibly, causing the member 2a to rotate in a clockwise direction about its pivot 26 and to deliver a blow to the latch 23, causing it to rotate in a clockwise direction about its pivot 26 and release the roller or pin 32. Instantly the toggle 19 and 20 collapses under the combined influences of gravity and the springs 72 and 73, attached to the frame and to arm 7 and link 20, respectively, causing the member 7 to rotate in a clockwisedirection about its pivot 8, and thus carrying the bridging member 6 away from the terminal blocks 2 and 3, later the contact 11 from its associate 16, and finally carbon 18 from its associate 17, thus completely rupturing the circuit. The tripping device is therefore in the nature of a hairtrigger, comprising the members 32 and 38, which control the power-spring 29. By this arrangement it is found that the circuitbreaker may be tripped most satisfactorily and positively, the electric magnet of any circuit-breaker supplying the energy or power for tilting, through the agency of the bar 37, all the members 36 or similar members of the several circuit-breakers, thus simply unlatching the almost frictionless trigger comprising the members 32 and 38 or similar arrangements in the several circuitbreakers, the power for actually tripping each circuitbreaker being derived from a spring or other device in each circuit-breaker. In other words, a hair-trigger is employed to control the power or energy which actually trips the circuit-breaker, and the delicate hair-trigger isfactuated by the electromagnetic device in each circuit-breaker. Between the end of the magnet and its cooperating armature 49 a very nice adjustment of the armature is necessary if the circu1t-breaker 15 to be calibrated for current strengths differing by reasonable amounts from each other. To this end is provided block 43, which rests on one of its long flat faces upon a machined or smoothed surface on the upper side of the plate 43. To move this block backwardly and forwardly is supplied a screw 44, engaging within the block 43 such screw having a convenient thumb-screw 47. In general the shape of the block 43 is that of a wedge and has a surface 42, which is a warped surface, on which bears the extremity of the .armature member 41. ture member 41 is of considerable extent, and
The end of this armain order that it may bear over its entire extent upon the adjusting-block 43 for every angular position of member 41 and for every corresponding position of block 43 the surface 42 is necessarily a warped onethat is, one generated by a straight line whose ends have for loci two other straight lines which are not parallel to each other. By turning the thumb-screw 44 the block 43 is moved from right to left, or vice versa, either lifting or permitting the fall of the armature 49, thus adjusting it with respect to the pole-pieces 50. It is upon the position of the block 43 that the operation of the circuit breaker depends. WVith the block 43 toward the right, Fig. 10, the armature 49 will be at a relatively great 46 is a pointer or projection from the block 43, which extends through a slot in the plate 45, and upon this plate 45, extending across the front of the circuit-breaker and hiding the block 43 and appurtenances, are the graduations of the current. By turning thumbscrew 47 until the pointer 46 comes opposite any calibration-mark the armature 49 is in such position that with the current of the magnitude indicated by the pointer 46 on the plate 45 the circuit-breaker will open. The adoption of the warped surface adjustment assures a great nicety and smoothness in adjustment, making the behavior of the circuitbreaker so satisfactory thatit becomes in fact an instrument of precision.
In Fig. 2, 3 represents the lower main terminal block of a switch of the same general type as that shown at A. The switch, however, is of a lower capacity than that shown at A, and in order to economize space and material and still obtain a suificiently great magneto-motive force'to open the circuitbreaker it is necessary to arrange the magnet with respect to the terminal so that a maximum magnetic flux will beobtained. To this end the main terminal bloc 3 has a portion of 3 which is engaged by a laminated bridging member similar to 6. 3 has a downwardlyextending portion 74. It is then turned toward the left in a horizontal portion and terminates in a reasccnding portion 76. It is into the rear of this portion 76 that the leading-in terminal or stud 5 is connected. The path of the current is then through the stud 5 and vertical portion 76, horizontal portion 7 5, vertical portion '74, and main portion 3, and next to the laminated bridging member and then to the upper main terminal block. In the terminal members 74 and 7 6 and in the rear of them next to the switchboard are cut the channels 52. 53 is a body of magnetic material whose thickness is approximately equal to the depth of these channels 52. This magnetic mass is placed within these channels and extends from one of them to the other. Extending toward the front of the switch-board or the flat surface of the main terminal block 3 are the pole- pieces 51, 51, and 51. These pole-pieces are integral with the mass 53 and extend slightly above the surface of the main terminal 3. By this arrangement of the iron and the terminal the effect is that of two turns of the conductor around the magnetic mass, or it may be viewed as two parallel magnetic circuits around which the terminal makes a single turn. The pole-piece 51 is just twice the width of either pole-piece 51, and the path of the magnetic lines is, as viewed in Fig. 3, from the pole-piece 51 through the main portion 53 to the left-hand pole-piece 51 and similarly from the pole-piece 51 through the right-hand portion of the mass 53 to the righthand polepiece 51. Mounted in front of these pole-pieces is armature 5 1, pivoted at 55 and having a horizontal extension 56, which rides or rests upon a warped surface 57 of the block 57, which is engaged by the thumb-screw 58 and carries the indicating pointer or stud 59. The operation is similar to that described in connection with the circuit-breaker A. At 60 is a pivot upon which is mounted the latch 65, engaging the member 66, which operates the main latch of the circuit-breaker in a manner similar to that of the element 27 of the circuit-breaker A. The latch or hair-trigger has a downwardlyextension portion 64:, which is engaged by the set-screw 63, mounted in the vertical member 61, which is also pivoted at 60. The upper portion of this member61 bears upon the top surface of the extension 56 of the armature 5 1. In the lower part of end 61 is secured the rod 37, which is the same rod appearing in the circuit-breaker A. It is by this rod that the tripping mechanisms of the two or more types or sizes of circuit-breakers areconnected together. The operation is as follows: hen a sufliciently large current -that is, a current corresponding with that marked at the groove opposite the pointer 59-passes through the terminal block 3, the armature 5 1 is attracted, and thus presses forwardly upon the upper extremity of the member 61, rotating such member in a counterclockwise direction about its pivot 60. The set-screw 63 then tilts the hair-trigger 65 in a counterclockwise direction about the same pivot 60, releasing the member 66, to which power is applied, as in the case of the circuit-breaker A, and the circuit-breaker tripped. This electromagnet and tripping mechanism, as disclosed in Figs. 2 and 3, is, as aforestated, employed upon a circuit-breaker of a lower capacity than that shown at A, which circuitbreaker is represented at B in Figs. a and 5 and is adapted to cooperate with the circuitbreaker A under certain conditions.
In Fig. 4f the two types of circuitbreakers A and B are mounted upon the same base 1. Though only two circuit-breakers are shown to be so mounted, it is to be understood that any number of circuit-breakers of different types or having tripping mechanisms of different types are to be so mounted. At 37 is clearly shown the rod which joins the members in each circuitbreaker which are acted upon by the armatures of the tripping-magnets. 62 is a convenient handle by means of which all the circuit-breakers may be tripped by hand at any desired moment and before the current in any one circuit has obtained its critical value. As seen in Fig. 4:, the circuitbreakers A and B are not of exactly the same dimensions and their tripping mechanisms are differently disposed, as heretofore described. The circuit-breaker A is of the larger capacity, while the circuit-breaker B has a relatively smaller capacity, and yet it is desirable under certain circumstances that all the circuitbreakers open at once, even though it is one of the lower-capacity circuit-breakers that is electrically tripped.
In Fig. 5 is shown a multivoltage system or circuit, including the main generator Gr, from which extend the main leads 67 and 68. Joined in series with each other and connected .between the leads 67 and 68 are the subsidiary generators 69, 70, and 71. From these generators extend the additional conductors 77 and 78. This forms the well-known multivoltage circuit between whose different conductors different potentials may be obtained. The large-capacity circuit-breakers A are connected in series in the conductors 67 and 68, while the low-capacity circuit-breakers B are connected in series in the conductors 77 and 78. Now in case the translating device supplied by the conductors 77 or conductor 78 consumes too great an amount of current either one of the circuit-breakers B will be electrically tripped, and in virtue of the connection 37 all of the circuit-breakers on the panel will be tripped. Similarly, if any one of the circuit-breakers is electrically tripped all the others will also be positively tripped. It is for the protection of the multivoltage system that the herein described invention is adapted. The current taken off of the conductors 77 or 78 is in general less than that taken off of the outer conductors 67 and 68, and in consequence it would be unnecessarily expensive and costly for the conductors 77 and 78 to be supplied with circuit breakers of a capacity equal to the capacity of the greatest circuit-brealn-n' necessary, such as A. By my arrangement I may use circuit-breakers of smaller capacity for the subsidiary conductors of a multivoltage system, which shall cooperate with the circuitbreakers in the main conductors and having a greater capacity. By adopting the delicate tripping mechanism, as herein described, all the tripping mechanisms of the different circuit-breakers may be connected together, as by a bar 37, which isimpossible with the arrangement in former types. The tripping devices of the circuit-breakers A and B are generic ally the same, but differ in details of arrangement because of the different types of electromagnets used. In virtue of my invention circuit-breakers of no matter how different capacities may be mounted upon the same panel and made to cooperate in the manner heretofore described.
It is within the scope of my invention to employ instead of the overload tripping devices those devices representing an under-load,
low voltage, &c., in which an armature is released instead of attracted, for it is obvious that the armature by being released may fall, and thereby actuate the member or tripping mechanism similarly to the member 36 in circuit-breaker A, and thereby cause the circuitbreaker to be tripped. It is also within the scope of my invention to employ circuitbreakers of different capacities, as herein described, cooperating with each other, but included in circuits other than multivoltage circuits or in absolutely independent circuits. It is also within the scope of my invention to vary the details of the construction of the parts and also of the tripping mechanism, it being the feature of my invention to employ a hair-trigger in connection with a trippingmagnet, which hair-trigger releases means for positively actuating the main trip of the circuit-breaker. It is to be understood, furthermore, that in place of the hook-latches which I have herein shown and described any other restraining means may be employed.
What I claim is 1. In an automatic circuit-breaker, separable cooperative contacts, a latch for restraining said contacts in normal position, means actuated by locally-stored energy for oper ating said latch, a trigger restraining said latclroperating means, a member pivoted concentrically with said trigger for operating said trigger, and electromagnetic means for tilting said trigger-operating means.
2. In an automatic circuit-breaker, separable cooperative contacts, means for restraining said contacts in normal position, an electromagnet, an armature therefor for controlling said restraining means, and adjusting means for said armature engaged by said armature upon a warped surface.
3. In an automatic circuit-breaker, separable cooperative contacts, a latch for restraining said contacts in normal position, an electromagnet, an armature therefor for controlling said latch, and means for adjusting said armature comprising a wedge-shaped block whose engaging face is a warped surface.
4:. In an automatic circuit-breaker, separable cooperative contacts, a latch for restraining said contacts in normal position, an elec tromagnet, an armature therefor, a member supporting said armature and controlling said latch, a means for adjusting said armature comprising a wedge-shaped member, having a warped surface, and engaged on said surface by said armature-supporting member.
5. In an electric switch, a contact comprising a mass of conducting material having a re cess therein, means engaging loosely in said recess, and a member loosely engaging said mass and cooperating with said means to lock said mass in position.
6. In an electric switch, a contact comprising a conducting mass having a plurality of recesses therein, means engaging loosely in a recess, and a member loosely engaging in another recess, whercby said mass is locked in position.
7. In an electric switch, a shunt-contact, comprising a conducting mass, a slot in said mass, a supporting-spring engaging in said slot, a groove in said mass, and a spring engaging in said groove.
8. In combination, a plurality of switches of different capacities, and havingdissimilar tripping mechanisms, and a connection between the tripping mechanisms of all the switches, whereby the operation of any one switch causes the operation of all the switches.
9. In combination, a plurality of switches of different capacities and having dissimilar tripping mechanisms, and a mechanical connection between the tripping mechanisms of all the switches whereby all switches are tripped when any one switch is tripped.
10. In combination, a plurality of switches, having dissimilar tripping mechanisms, each tripping mechanism comprising a trigger-eontrolled member actuated by locally-stored energy, a triggeroperating member, and a mechanical connection between the trigger-operating members of all the switches.
11. In combination, a plurality of electrical switches of different capacities, each switch having a tripping mechanism comprising a trigger-controlled member actuated by locally-stored energy, a pivoted triggeractuating member, and means for causing the simultaneous action of the trigger-operating members of all the switches.
12. In combination, a plurality of automatic circuit-breakers of different capacities, each switch havinga tripping mechanism comprising a trigger-controlled member actuated by locally-stored energy, a trigger-actuating member, and electroresponsive means for actuating said triggeractuating means, and
means for causing the simultaneous action of the trigger-actuating means of all the circuitbreakers.
13. In combination, a plurality of automatic circuit-breakers of different capacities, each having a tripping mechanism comprising a tripping-lever, actuated by locally-stored energy, a hair-trigger restraining said lever, a trigger-actuating member, an electroresponsive means controlling said trigger-actuating member, and a mechanical connection between the trigger-actuating members of all the circuit-breakers.
14. In an electric switch, separable cooperative contacts, means for restraining said contacts in normal position, means for imparting a blow to said restraining means, resilient means connecting said restraining means and blow-imparting means, and a trigger controlling said blowimparting means.
15. In an electric switch, separable cooperative contacts, means for restraining said contacts in normal position, means for actuating IIO ative contacts, means for restraining said con-.
tacts in normal position, means for actuating said restraining means by locally-stored energy a trigger controlling said actuating means and means for operating said trigger said trigger and its operating means being concentrically pivoted.
17. In an electric switch, separable cooperative contacts, means for restraining said contacts in normal position, a member for actuating said restraining means, a resilient connection between said restraining means and said actuating member, a spring compressed by said actuating member, and a trigger for restraining said spring.
18. In an electric switch, fixed contact-s, a movable switch member adapted to cooperate therewith, means for restraining said movable switch member in normal position, means tor actuating said restraining means and for delivering a blow to the movable switch member, a local source of energy for operating said actuating means, and a trigger controlling said source of energy.
19. In an electric switch, fixed contacts, a movable switch member adapted to cooperate therewith, a latch for restraining said movable switch member in normal position, a member actuated by locally-stored energy to operate said latch and to impart a blow to the movable switch member, and a trigger controlling said member.
20. In an electric switch, fixed terminals, a movable switch member cooperating therewith, a latch for restraining said movable member in normal position, a pivoted lever for actuatingsaid latch, a spring held compressed by said lover, a trigger controlling said lever, and means for operating said trigger pivoted concentrically with said trigger.
21. In an electric switch, a base, fixed contacts, a movable switch member cooperating therewith, a latch for restraining said movable switch member in normal position, amember for actuating said latch by locally-stored energy, and a trigger pivoted to the base for controlling said member.
22. In an electric switch, a base, contacts secured thereto, a movable switch member cooperating with said contacts, a latch for restraining said switch member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, and means pivoted to said base for actuating said trigger.
23. In an electric switch, a base, fixed contacts, a movable switch member adapted to cooperate therewith, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a spring for operating said member, and a trigger pivoted to the base For controlling said spring.
2 In an electric switch, a base, fixed contacts, a movable switch member cooperating therewith, a latch for restraining said movable switch member in normal position, a member tor actuating said latch, a trigger for controlling said member, and a trigger-actuating member, said trigger and its actuating memher being pivoted to the base concentrically with each other.
25. In an electric switch, a base, terminal blocks secured thereto, a laminated bridging member adapted to cooperate with said terminal blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch by locally-stored energy, and a trigger pivoted to the base for controlling said actuating member.
26. In an electric switch, a base, terminal blocks secured thereto, a laminated bridging member adapted to cooperate with said terminal blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, and means pivoted to said base for actuating said trigger.
27. In an electric switch, a base, terminal blocks secured thereto, a movable laminated member adapted to bridge said blocks, alatch for restraining said laminated member in normal position, a member for actuating said latch, a spring for operating said member, and a trigger pivoted to the base for controlling said spring.
28. In an electric switch, a base, terminal blocks secured thereto, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a trigger for controlling said actuating member, and a trigger-actuating member, said trigger and its actuating member, being pivoted to the base concentrically with each other.
2%). In an automatic circuit-breaker, fixed contacts, a base supporting the same, a movable switch member cooperating with said contacts, a latch for restraining said movable switch member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, and electroresponsive means for controlling said trigger.
30. In an automatic circuit-ln'eaker, a base, fixed contacts mounted thereon, a movable switch member cooperating with said contacts, a latch for restraining said movable switch member in normal position, a latchactuating member operated by locally-stored energy, a trigger for controlling said actuating member, and electroresponsive means secured to said base t'or controlling said trigger.
31. In an automatic circuit-brealmr, a base, fixed contacts, a movable switch member eooperating with said contacts, a latch for restraining said movable switch member in nor mal position, a latch-actuating member operated by locally-stored energy, a trigger pivoted to the base for controlling said actuating member, and electroresponsive means for controlling said trigger.
32. In an automatic circuit-breaker, a base, contacts secured thereto, a movable switch member cooperating with said contacts, a latch for restraining said switch member in normal position, a member for actuating said latch by locally-stored energy, a trigger pivoted to said base for controlling said member, means pivoted to said base for actuating said trigger, and electroresponsive means for actuating said trigger-actuating means.
33. In an automatic circuit-breaker, a base, fixed contacts mounted thereon, a movable switch member adapted to cooperate with said contacts, a latch for restraining said movable switch member in normal position, amember for actuating said latch, a spring for operating said member a trigger pivoted to said base for controlling said spring, and electroresponsive means for controlling said trigger.
34. In an automatic circuit-breaker, a base, fixed contacts mounted thereon, a movable switch member adapted to cooperate with said contacts, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a spring for operating said member, a trigger pivoted to the base for controlling said spring, means pivoted to the base for actuating said trigger, and electroresponsive means for controlling said trigger-actuating means.
35. In an automatic circuit-breaker, a base, fixed contacts mounted thereon, a movable switch member cooperating with said contacts, a latch for restraining said movable switch member in normal position, a member for actuating said latch, a trigger for controlling said member, a triggeractuating member, said trigger and its actuating mem-' ber being pivoted to the base concentrically with each other, and electroresponsive means for controlling said trigger-actuating member.
36. In an automatic circuit-breaker a base, contact-blocks fixed thereon, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a spring for operating said latch-actuating member, a trigger pivoted to said base for controlling said spring, and electroresponsive means for controlling said trigger.
37. In an automatic circuit-breaker, a base, contact-blocks fixed thereto, a laminated member adapted to bridge said contact-blocks, a latch for restraining said laminated member in normal position, a member for actuating said latch, a spring for operating said member, a trigger pivoted to the base for controlling said spring, means for operating said trigger, and electroresponsive means for controlling said trigger-operating means.
38. In an automatic circuit-breaker, a base, contact-blocks fixed thereon, a movable laminated member adapted to bridge said blocks, a latch for restraining said laminated member in normal position, said latch being pivoted to said base, a member for actuating said latch, a trigger pivoted to the base for controlling said latch-actuating member and electroresponsive means for controlling said trigger.
39. In an automatic circuit-breaker, a base, contact-blocks fixed thereon, amovable laminated member adapted to bridge said blocks, a latch for restraining-said laminated member in normal position, a member for actuating said latch, a trigger for controlling said member, a trigger-actuating member, said trigger and its actuating member being pivoted to the base concentrically with each other, and electroresponsive means for controlling said trigger-actuating member.
40. In a tripping mechanism for electric switches, an adjusting means comprising relatively movable members, one of said members having a warped surface and engaged thereon by another of said members.
41. In a tripping mechanism for electric switches, an adjusting means comprising relatively movable members, one of said members being of a general wedge shape and having a warped surface engaged by another of said members.
l2. In a tripping mechanism an electromagnet, an armature therefor, and means for adjusting the position of said armature with respect to said electromagnet comprising a member having a warped surface and a second member engaging said warped surface.
43. In a tripping mechanism, an electromagnet, an armature therefor, a pivotal support for said armature, a movable wedgeshaped member having a warped surface, and an extension from said armature-support engaging said warped surface.
44. In a tripping mechanism, an electromagnet whose conductor has great currentcarrying capacity, an armature for said magnet, means for adjusting the position of said armature with respect to said magnet comprising a member having a warped surface and a second member engaging upon said warped surface, said members being relatively movable.
15. In an electric switch, a shunt-contact comprising a conducting mass, a recess therein, means engaging loosely in said recess, and a shouldered member loosely engaging said mass.
&6. In an electric switch, a shunt-contact comprising a conducting mass, resilient means engaging in a slot therein, and a resilient comprisingaconductingmass, resilient means shouldered means engaging said mass. engaging in a recess therein, and a resilient 47. In an electric switch a shunt-contact tongued means engaging in a recess therein. I0 comprising a recessed conducting mass, and WM. M. SCOTT. 5 a member supporting said mass by a locking Witnesses:
tongue-and-slot engagement. MAE HOFMANN,
48. In an electric switch, a shunt-contact ALICE T. BURROUG'H.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US1903161985 US754505A (en) | 1903-06-18 | 1903-06-18 | Automatic circuit-breaker. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US1903161985 US754505A (en) | 1903-06-18 | 1903-06-18 | Automatic circuit-breaker. |
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Publication Number | Publication Date |
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US754505A true US754505A (en) | 1904-03-15 |
Family
ID=2822997
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US1903161985 Expired - Lifetime US754505A (en) | 1903-06-18 | 1903-06-18 | Automatic circuit-breaker. |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2423838A (en) * | 1942-10-02 | 1947-07-15 | Collins Radio Co | Keying relay |
US2738394A (en) * | 1949-08-31 | 1956-03-13 | Ite Circuit Breaker Ltd | Automatic recloser |
US2809252A (en) * | 1955-05-23 | 1957-10-08 | Westinghouse Electric Corp | Circuit interrupters |
-
1903
- 1903-06-18 US US1903161985 patent/US754505A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2423838A (en) * | 1942-10-02 | 1947-07-15 | Collins Radio Co | Keying relay |
US2738394A (en) * | 1949-08-31 | 1956-03-13 | Ite Circuit Breaker Ltd | Automatic recloser |
US2809252A (en) * | 1955-05-23 | 1957-10-08 | Westinghouse Electric Corp | Circuit interrupters |
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