US779003A - Automatic magnetic circuit-breaker. - Google Patents
Automatic magnetic circuit-breaker. Download PDFInfo
- Publication number
- US779003A US779003A US6633701A US1901066337A US779003A US 779003 A US779003 A US 779003A US 6633701 A US6633701 A US 6633701A US 1901066337 A US1901066337 A US 1901066337A US 779003 A US779003 A US 779003A
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- United States
- Prior art keywords
- coil
- circuit
- current
- coils
- breaker
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
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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
- H01H83/20—Protective switches, e.g. circuit-breaking switches, or protective relays operated by abnormal electrical conditions otherwise than solely by excess current operated by excess current as well as by some other abnormal electrical condition
Definitions
- My invention relates to improvements in automatic circuit-breakers, the object being IO to provide means for interrupting an electric circuit upon the occurrence of several predetermined conditions.
- My circuit-breaker is intended particularly for use in connection with circuits including 5 devices capable of reversing the current in the circuit or causing a reversed-energy How in the circuit. Such conditions are possible in circuits including storage batteries, boosters, motor-generator sets, and also in alter- 3 nating circuits may include rotary transformers and kindred apparatus.
- FIG. 1 is a detail of the latch 12.
- Fig. 2 is a front cleva tion of my device.
- Fig. 3 is a horizontal section on the line 3 3 of Fig. 2.
- Fig. 4 is an elevation of the coils with their jackets removed, and
- Fig. 5 is a diagrammatic View showing the arrangement of the coils of my circuit-breaker in the circuit to be protected.
- Coil 1 represents the usual overload tripping-coil of an automatic circuit-breaker and is provided with a plunger 2, carrying the pin 24.
- the plunger 2 Upon the occurrence of abnormal current in whatever direction in the circuit to be protected the plunger 2 is drawn upwardly with a force depending upon the amount of current circulating through the coil 1.
- the pin 24 engages one end of the lever 25, tilting it upwardly and pulling down wardly upon the member 26, attached at its upper end to the short arm of the pivoted latch 12. This causes the latch 12 to be lifted from engagement with the roller 21, pivoted in the operating member supplied with the handle 13.
- the outer end of latch 12 is rising, however, the left-hand lip of the latch as viewed in Fig.
- the coil 3 is also a coarse-wire coil similar to coil 1 and is joined in parallel with said coil 1.
- l Vithinthe coil 3 is another coil, 7, of fine wire, which surrounds the same core that is embraced by coil 3. Both coils 3 and 7 have the same magnetic circuit, which consists of this internal core and the two pole-pieces et and 5 coming closely together and being separated by a small airgap only at about the middle of the front of coil 3.
- the operating member of the switch is pivoted at 14 in a bracket extending from the base of the instrument and has an extension pivoted at 18 to the link 15, which in turn is pivoted at 17, with a supporting-arm 16 pivoted at its lower end and having a motion of translation in a slot in the supporting-bracket.
- the member 16 carries the main movable laminated contact member of the switch and the supplemental metallic and. carbon shuntcontacts. Insulated from the member 16 and all metallic parts carried thereby is the movable contact 8, which engages the fixed plunger-contact 9. These contacts 8 and 9 control the circuit of the coil 7, as shown in Fig. 5.
- 32 is the movable shunt-carbon, pivoted at 32 in a rigid upwardly-extending portion of the member 16.
- the carbons 32 and 33 are spring-pressed and are provided with pivots to permit them to adjust their contact-faces with respect to each other during the closing and opening movement of the switch.
- the bridge 27 first breaks circuit with the main terminals 28 and 29. Then the metallic shuntcontacts 30 and 31 separate, and lastly the carbons 32 and 33 separate, and it is at their surfaces that the arcing of the switch takes place, thereby preventing any pitting or blistering of the metallic contacts.
- a generator Gr which. is
- a secondary battery B In series with the generator and battery is joined my automatic circuit breaker, as herein described, and is shown in this Fig. 5 in its elemental form. From this diagrai'n it is clearly shown that the coils 1 and 3 are joined in parallel with each other and in series with the main circuit. The coil 7 is connected across the terminals of the generator G, thus being subjected to the potential difference maintained by said generator G.
- Coils 1 and 3 being in parallel with each other, the current flowing through them di' vides and flows in each in amounts inversely proportional to the resistances of the coils or inversely as the impedances of these coils it employed upon alternating-current circuits.
- the major portion of the current maybe caused to pass through coil 1, and vice versa.
- Increasing the resistance of coil 1 or decreasing the resistance of coil 3 will cause a greater amount of current to flow through coil
- by increasing or decreasing the number of turns in either coil 1 or coil 3 without changing its resistance will result in increased or decreased magnetizing effect, and by varying both the resistance and turns of either or both coils numerous proportions of magnetizing effects may be obtained.
- the coil 7 is connected directly across the circuit and is therefore subjected to the full-line pressure or voltage. (oils 7, whether the current be a continuous or an alternating one, is of constant polarity that is, the direction at any instant of the magnetism generated by it is the same whether the current or energy flow in the main circuit be in one direction or another. Under these conditions the coil 7 furnishes suflicient magnetomotive force to hold the armature 6 attracted. If the voltage or pressure of the system decreases sufficiently, the magnetizing effect of the coil 7 diminishes to such an extent that even with some current flowing in the coil 3 the armature 6 is released and the circuit-breaker opened. (oil 7 is therefore the low-voltage coil.
- Coil 3 is a current-coil adapted to aid in controlling in event of reversed-currentor reversed-energy flow-that is, should the current in the circuit or system be reversed in direction coil 3 would furnish ampere-turns in opposition to the ampere-turns of coil 7, and should the reverse current reach a sufficiently great value coil 7 would be entirely overcome, or so nearly overcome that armature 6 would be released and the circuit-breaker opened.
- coils 1, 3. and 7 the circuit is interrupted upon excessive current-flow in either direction through the circuit upon low-voltage condition or upon a reversal of current in the circuit and before the amount of such reversed current becomes excessive.
- the circuit-breaker By proportioning the magnetic effect of coil 7, of coil 3, and the strength of spring 10 the circuit-breaker may be caused to open at any desirable conditions of voltage, direct or reversed energy flow. By making the spring relatively weak and also the magnetizing effect of coil 7 relatively weak but a slight currentin the reversed direction Will cause the opening of the circuit-breaker. It is thus seen that the three coils of my circuit-breaker cooperate to control a circuit upon predetermined conditions of overload, low voltage, or reversed current.
- switch-restraining means In a tripping mechanism, switch-restraining means, a plurality of coils connected in parallel with each other and in series in a circuit, one of said coils operating to control said restraining means, and a potential-coil connected in shunt with said circuit and cooperating with another of said coils to control said restraining means.
- a controlling means comprising an overloadcoil
- controlling means comprising cooperating current and potentialcoils, said overload-coil and current-coil being connected in parallel.
- a controlling means comprising an overload-coil
- further controlling means comprising a current-coil and a potential-coil, fsaid overload-coil and said current-coil being connected in parallel with each other and in series in the main circuit, and said potential-coil being connected in a circuit in shunt to the main circuit.
- a controlling means comprising an overload-coil
- further controlling means comprising a current-coil and a potential-coil, said overload-coil and said current-coil being connected in parallcl, and a magnetic circuit common to said current and potential coils.
- a controlling means comprising an overload-coil
- further controlling means comprising a potential-coil and a current-coil, said overload-coil and said current-coil being connected in parallel, a magnetic circuit associated with said overload coil, and an independent magnetic circuit common to said potential-coil and said currcnt- I'VM.
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Description
No. 779,003. I PATENTED JAN. 3, 1905. W. M. SCOTT.
AUTOMATIC MAGNETIC CIRCUIT BREAKER.
APPLICATION FILED JUNE 28,1901..
2 SHEETS-SHEET 1.
A Tron/v5) PATENTED JAN. 3, 1905.
w. M. soon.
AUTOMATIC MAGNETIC CIRCUIT BREAKER.
APPLICATION FILED JUNE 28.1901.
2 SHEETS-SHEET 2.
IN VENTOH Mlliamflfaxwellfl 0021 almwm A TTOH/VEY UNITED STATES Patented January 3, 1905.
PATENT OFFICE.
l/VILLIAM M. SCOTT, OF PHILADELPHIA, PENNSYLVANIA, ASSIGNOR TO CUTTER ELECTRICAL AND MANUFACTURING COMPANY, A CORPORA- TION OF NEW JERSEY.
AUTOMATIC MAGNETIC CIRCUIT-BREAKER.
SPECIFICATION forming part of Letters Pa ent NO. 779,003, dated January 3, 1905.
Application filed June 28, 1901. Serial No. 66,337.
To aZZ whom it may concern:
Be it known that LWILLIAM M. SCOTT, 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 improvements in automatic circuit-breakers, the object being IO to provide means for interrupting an electric circuit upon the occurrence of several predetermined conditions.
It is the object of my invention to provide automatic protective means which shall op- 5 erate to open an electric circuit upon the occurrence of an abnormal current-flow in either direction through the circuit, upon the potential of the circuit falling to a predetermined value or upon the reversal of the current in the circuit, and also upon the reversal of the current being attended by an abnormal current-flow.
My circuit-breaker is intended particularly for use in connection with circuits including 5 devices capable of reversing the current in the circuit or causing a reversed-energy How in the circuit. Such conditions are possible in circuits including storage batteries, boosters, motor-generator sets, and also in alter- 3 nating circuits may include rotary transformers and kindred apparatus.
In the disclosure herein made my automatic circuit-breaker is shown in connection with the circuit including a storage battery to control the charge and discharge of said battery.
Reference is to be had to the accompanying drawings, in which- I Figure l is a side elevation of my device with the circuit-breaker in the closed posi- 4 tion. Fig. 1 is a detail of the latch 12. Fig.
l" is a detail of the armature-controlled latchtripping mechanism. Fig. 2 is a front cleva tion of my device. Fig. 3 is a horizontal section on the line 3 3 of Fig. 2. Fig. 4 is an elevation of the coils with their jackets removed, and Fig. 5 is a diagrammatic View showing the arrangement of the coils of my circuit-breaker in the circuit to be protected.
Similar numerals refer to similar parts throughout the several views. 5
The operating member of the switch is pivoted at 14 in a bracket extending from the base of the instrument and has an extension pivoted at 18 to the link 15, which in turn is pivoted at 17, with a supporting-arm 16 pivoted at its lower end and having a motion of translation in a slot in the supporting-bracket. The member 16 carries the main movable laminated contact member of the switch and the supplemental metallic and. carbon shuntcontacts. Insulated from the member 16 and all metallic parts carried thereby is the movable contact 8, which engages the fixed plunger-contact 9. These contacts 8 and 9 control the circuit of the coil 7, as shown in Fig. 5.
Upon the release of roller 21 from the latch 12 the toggle composed of the link 15and the extension from the operating member collapses, and the member 16 rotates about its pivot to open a circuit by removing the movable contacts from engagement with their cooperating stationary contacts. The spring 19 and the spring 19 under tension when the switch is closed assists in the opening movement.
27 represents the movable contact member, which bridges the main fixed terminals 28 and 29, having their engaging faces in the same vertical plane.
30 is the movable metallic shunt-contact, which engages with the stationary metallic shunt-plate 31, in electrical communication with the main terminal 28.
32 is the movable shunt-carbon, pivoted at 32 in a rigid upwardly-extending portion of the member 16.
33 is the cooperating stationary carbon shunt-contact, pivoted at 33 in an upwardlyextending bracket electrically and mechanically secured to the upper main terminal 28.
The carbons 32 and 33 are spring-pressed and are provided with pivots to permit them to adjust their contact-faces with respect to each other during the closing and opening movement of the switch.
As is well understood in the art of circuitbreakers, during the opening movement the bridge 27 first breaks circuit with the main terminals 28 and 29. Then the metallic shuntcontacts 30 and 31 separate, and lastly the carbons 32 and 33 separate, and it is at their surfaces that the arcing of the switch takes place, thereby preventing any pitting or blistering of the metallic contacts.
In Fig. 5 is shown a generator Gr, which. is
employed, for example, to charge a secondary battery B. In series with the generator and battery is joined my automatic circuit breaker, as herein described, and is shown in this Fig. 5 in its elemental form. From this diagrai'n it is clearly shown that the coils 1 and 3 are joined in parallel with each other and in series with the main circuit. The coil 7 is connected across the terminals of the generator G, thus being subjected to the potential difference maintained by said generator G.
By proportioning the magnetic effect of coil 7, of coil 3, and the strength of spring 10 the circuit-breaker may be caused to open at any desirable conditions of voltage, direct or reversed energy flow. By making the spring relatively weak and also the magnetizing effect of coil 7 relatively weak but a slight currentin the reversed direction Will cause the opening of the circuit-breaker. It is thus seen that the three coils of my circuit-breaker cooperate to control a circuit upon predetermined conditions of overload, low voltage, or reversed current.
Upon the opening of the circuit-breaker contacts 8 and 9 separate, thereby also opening the circuit of the coil 7, and when the circuit-brealrer is closed the direction of the current through coil 7 is always the same whether the current through the generator and battery be in the one direction or the'other.
What I claim is 1. In a tripping mechanism,switch-restraining means, a plurality of coils connected in parallel with each other, one of said coils operating to control said restraining means, and a coil of constant polarity cooperating with another of said coils to control said restraining means.
2. In a tripping mechanism,switch-restraining means, a plurality of current-coils connected in parallel with each other, one of said coils operating to control said restraining means, and a coil of constant polarity cooperating with another of said current-coils to control said restraining means.
3. Inatrippingmechanism,switch-restraining means, a plurality of coils connected in parallel With each other, one of said coils operating to control said restrainingmeans, and a potential-coil cooperating with another of said coils to control said restraining means.
4. In a tripping mechanism, switch-restraining means, a plurality of coils connected in parallel with each other and in series in a circuit, one of said coils operating to control said restraining means, and a potential-coil connected in shunt with said circuit and cooperating with another of said coils to control said restraining means.
5. In an automatic electric switch, separable cooperative contacts, means for restraining said contacts in normal position, an overload coil for controlling said restraining means, a coil in parallel with said overloadcoil, a potential-coil, said coil and potentialcoil cooperating to control said restraining means upon the occurrence of low voltage or a reversed-energy flow.
6. In an automatic electric switch, separable cooperative contacts, means for restraining said contacts in normal position, a plurality of current-coils in parallel with each other, one of said coils operating on overloadto control said restraining means, a potentialcoil, said potential-coil and another of said current-coils cooperating to control said restraining means upon reversed-energy flow or low voltage.
7. In an automatic electric switch, separable cooperative contacts, means for causing their separation, means for restraining the separating means, a current-coil for controlling said restraining means upon predetermined overload, and an electromagnet and an armature controlled thereby, said electromagnet comprising a series coil and a shuntcoil, said series and shunt coils cooperating to control said armature during energy-flow in normal direction and opposing each other upon reversed-energy flow and operating to release said armature to control said restraining means.
8. In an automatic switch, separable cooperative contacts, a controlling means comprising an overloadcoil, and controlling means comprising cooperating current and potentialcoils, said overload-coil and current-coil being connected in parallel.
9. In an automatic electric switch, separable cooperative contacts, a controlling means comprising an overload-coil, and further controlling means comprising a current-coil and a potential-coil, fsaid overload-coil and said current-coil being connected in parallel with each other and in series in the main circuit, and said potential-coil being connected in a circuit in shunt to the main circuit.
10. In an automatic electric switch, separable cooperative contacts, a controlling means comprising an overload-coil, and further controlling means comprising a current-coil and a potential-coil, said overload-coil and said current-coil being connected in parallcl, and a magnetic circuit common to said current and potential coils.
11. In an automatic electric switch, separable cooperative contacts, a controlling means comprising an overload-coil, further controlling means comprising a potential-coil and a current-coil, said overload-coil and said current-coil being connected in parallel, a magnetic circuit associated with said overload coil, and an independent magnetic circuit common to said potential-coil and said currcnt- I'VM. M. SCOTT.
coil.
Witnesses:
CHAs. D. IVHITE, MAE HoFrMANN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US6633701A US779003A (en) | 1901-06-28 | 1901-06-28 | Automatic magnetic circuit-breaker. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US6633701A US779003A (en) | 1901-06-28 | 1901-06-28 | Automatic magnetic circuit-breaker. |
Publications (1)
Publication Number | Publication Date |
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US779003A true US779003A (en) | 1905-01-03 |
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ID=2847487
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Application Number | Title | Priority Date | Filing Date |
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US6633701A Expired - Lifetime US779003A (en) | 1901-06-28 | 1901-06-28 | Automatic magnetic circuit-breaker. |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2616999A (en) * | 1943-12-08 | 1952-11-04 | Ite Circuit Breaker Ltd | Circuit breaker trip mechanism |
US3688227A (en) * | 1970-11-09 | 1972-08-29 | Kyonghi Hong | Impedance protector |
DE4433678A1 (en) * | 1994-09-21 | 1996-04-18 | Igus Gmbh | Energy chain with guide stop |
-
1901
- 1901-06-28 US US6633701A patent/US779003A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2616999A (en) * | 1943-12-08 | 1952-11-04 | Ite Circuit Breaker Ltd | Circuit breaker trip mechanism |
US3688227A (en) * | 1970-11-09 | 1972-08-29 | Kyonghi Hong | Impedance protector |
DE4433678A1 (en) * | 1994-09-21 | 1996-04-18 | Igus Gmbh | Energy chain with guide stop |
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