US2315618A - Circuit interrupter - Google Patents
Circuit interrupter Download PDFInfo
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- US2315618A US2315618A US420514A US42051441A US2315618A US 2315618 A US2315618 A US 2315618A US 420514 A US420514 A US 420514A US 42051441 A US42051441 A US 42051441A US 2315618 A US2315618 A US 2315618A
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- contact
- arc
- gases
- circuit
- contacts
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H33/00—High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
- H01H33/70—Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid
Definitions
- v l minal structure t is substantially cylindrical in Thisinventionfrelates generally tov electric circuit interrupters, and more specifically to inter-y rupters of the gas blast type.
- One object of'this invention is to provide a novel contact construction for circuit interrupters having relatively xed j and movable contacts, wherein lthe arc gases are directed through one directed toform, and ls'provided with a transversely extendlng centrally apertured portion l2 adapted to seat onthe end of insulating tube 2,y with the aperture thereof aligned rwith bore I0, and this parti-y tion also serves tov retain washer-like members l within insulatingtube 2.
- the end terminal structure shalls likewise provided with a 'transversely extending apertured partition Il for recontact which is provided with means for shieldv ing it from the deleterious eiiects of such gases.
- Another object of this invention is to provide in an interrupter of the' typek described, a novel hollow ilxedcontact construction having shielding means for protecting the contact from the arc and arc gases.
- Figure 1 is a longitudinal, sectional view of ⁇ a circuit interrupter constructed in accordance with this invention with the interrupter contacts shown in open circuit position, and
- Fig. 2 is apartial sectional view of an interrupter similar to Fig. 1 with the interruptor con- Xtacts shown in the closed circuit position, and with a modified form of control means for the contacts.
- the circuit lnterrupter shown in Figs. 1 and 2 of the drawing is preferably provided in a tu bular insulating housing 2,lwhich maybe of any desired insulating material, such, for example, as fiber, a synthetic resin, or thelike.
- the insulating tube 2 has the opposite ends thereof threaded for threadedly receiving cap-like end terminal structures 4 and 6, respectively.
- 'I'he end terminal structure 6 is provided with ⁇ an intermediate, integral, transversely extending partition I5 having. a central aperture for a purpose to be hereinafter reierredto, and adapted to support on opposite sides of this aperture contact fingers i8, pivoted as at I8 on the partition.
- These pivoted contact fingers I6 provide the stationary contact structure for the interrupter, and l they ⁇ are resiliently biased towards each other and towardsV the central axis of the rinterrupter by a coil compression rspring ⁇ 2Il for each pivoted con'- tact I6, and positioned between the contact and the outer cylindrical wall ofterminal structure i.
- the pivoted contact fingers I6- are electrically connected with terminal structure 6 by iiexible shunts 22 which may be soldered or otherwise secured to the contactiingers and the side wall'of the terminal structure.
- the outer end wall ofy terminal structure 6 is also provided with acentral aperture 24 which is aligned with bore I0 and the aperturesk through partitions I2 and I5, for slidably receiving Athe outer end 26 cfa contact follower shield member.
- This shield member may be of rintegral construction, butr preferably, for assembly purposes, is made of two parts as shown, including an outer end portion 2B having an outwardly'flaring outlet passage 28 therethrough, and an outwardly extending flange 29 ai; the inner end thereof, i and an inner end portion 30,
- Movable contact rod 36 is adapted to be slidably mounted through arc bore I and through apertures in partition I4 and end wall 38 of terminal cap structure 4.
- the outer end of contact rod 36 is provided with an enlarged head portion 4U, and the contact rod is normally biased outwardly relative to insulating tube 2 by a coil compression spring 42 seated between head 40 of the rod, and end wall 38 of terminal structure 4.
- the contact rod is adapted to be maintained in a closed circuit position wherein the inner end thereof is positioned between contact fingers I6, by a slidable latch bar 44 movably mounted through the side wall of terminal structure 4 and engageable in notch 50, formed adjacent the outer end of contact rod 36.
- the latch bar 44 is provided with a flange 46 at the inner edge thereof, and a coil compression spring 48 seated between. the flange 46 and side wall of terminal structure 4 is adapted to continually bias the latch bar inwardly into engagement with contact rod 36.
- latch bar 44 is pivotally connected to one arm of a bell crank lever 52, and the other arm of the bell crank lever is provided with a hook eye 54 for the reception of a hook-stick operating member or the like, for retracting the latch bar 44 from notch 50.
- contact rod 36 is electrically connected to terminal structure 4 by means of a flexible shunt 66 secured to the terminal structure and the enlarged head 40 on the contact rod.
- latch bar 44 is under the control of bell crank lever 58, which, in turn, is pivoted to the plunger rod 60 of a solenoid 62.
- the contact fingers I6 of the fixed contact construction are not only protected from the deleterious effects of arclng, but are also protected from the high temperature and high velocity of the gases expelled from bore I0, which would cause excessive erosion of the contact surfaces were it not for follower shield 26, 30.
- This erosion of contacts I6, as well as deposits of material thereon from gases evolved, would obviously result in a very poor contact between contact fingers I6 and contact rod 36 when the lnterrupter was reclosed.
- the fixed contact fingers I4 are entirely protected from the effects of the arc and hot gases expelled, while at the same time an outlet is provided through the fixed contact construction for the arc gases in novel manner.
- latch bar 44 is readily released to effect a circuit interrupting operation by merely pulling downwardly on hook eye 64.
- latch bar 44 is adapted to be released by energization 0f solenoid 62, and this may be remotely controlled, or the solenoid maybe connected in the interrupter circuit so as to be responsive to predetermined electrical conditions to effect a circuit interrupting operation of the interruptor.
- the circuit may be reclosed by moving contact rod 36 upwardly from the position shown in Fig. 1, for example, as by a force exerted on the flanged head 4I) thereof.
- the contact rod will first engage the inner end of inner portion 30 of the follower shield and thereafter cause movement of the shield upwardly while the inner end of the contact rod moves between contact fingersl I6 to the position shown in Fig. 2 of the drawing, wherein the circuit through the interrupter is reestablished.
- circuit interrupter herein disclosed is provided with a novel fixed contact construction embodying a follower shield means capable of not only protecting the fixed contacts from arcing, but also providing a passage for gases expelled during interruption, while protecting the nxed contacts from the deleterious effects of such gases. It is also apparent that this invention provides a hollow contact construction with hollow shielding follower means assoclated therewith providing a gas passageway therethrough of optimum design, and which is automatically operable upon a circuit interrupting operation to shield and protect the contact from arcing and from the hot gases expelled.
- separable contacts one of which is tubular to receive'the other in closed circuit position and to vent the arc gases formed when said contacts separate, and tubular shielding means telescopically engaged with said one contact and automatically movable in response to separation of said contacts to a shielding position with respect to said one contact.
- a circuit interrupter separable contacts one oi' which is tubular to receive the other in closed circuit position and to vent the arc gases formed when said contacts separate, and tubular shielding means ⁇ of conducting material telescopically engaged with said one contact and automatically movable in response to separation of said contacts to a shielding position with respect to said one contact and to a position closer to said other contact than said one contact so that the arc drawn will be transferred to said shielding means.
- a circuitinterrupter relatively xed and movable contact means, said fixed contact being tubular to receive said movable contact in closed circuit position and to vent the arc gases formed when said movable contact is moved away from said fixed contact, and a tubular shielding means adapted for telescoping movement in said fixed contact in response to movement of said movable contact away from said fixed contact to shield the inner wall of said fixed contact from the deleterious effects of said arc gases.
- tubular shielding means adapted for telescoping movement in said fixed contact in response to movement oi' said movable contact away from said iixed contact to shield the inner wall of said fixed contact from the deleterious eiects of said arc gases, and said shielding means having a flared outlet.
- tubular shielding means of conducting material adapted i'or telescoping movement in said fixed contact in response to movement of said movable contact away from said fixed contact to shield the inner wall oi said fixed contact from the deleterious effects of said arc gases, and to a position closer to said other CII contact said shielding means will follow to shield said fixed contact from the arc gases, and stop means for preventing such following kmovement of said shielding means substantially beyond its shielding position.
- a circuit interrupter a tubular casing of insulating material having an. open end, spaced terminals on said casing, interrupting means in said casing including a tubular contact means adjacent said open end of the casing, and a rod-like contact movably mounted. longitudinally of said casing, said contacts electri-r l cally connected to said terminals, respectively,
- shielding means movable in response to separation of said contacts to a position for shielding said one contact from the deleterious effects of said gases.
- a circuit interrupter means forming an arc chamber having an opening for venting the arc gases, separable contacts in said chamber, one of which is positioned in the path oi' gases escaping from said vent when'the circuit is interrupted, and tubular shielding means movable axially of said opening to a position shielding said one contact from the arc gases and providing a passage for saidgases axially to said vent opening.
- a circuit interruptor means forming an arc chamber having an opening for venting the arc gases, separable contacts in said chamber, one of 'which is positioned in the path of gases escaping front said vent when the circuit is interrupted, tubular shielding means normally positioned in said vent opening and substantially filling the same, with at least a portion thereof projecting outwardly through said vent opening, means moving said shielding means into said chamber kin response to separation oi' said contacts to a position shielding said one contact, and means limitinginward movement of said shielding mea-ns so that a portion thereof remains in said vent opening to conduct the arc gases therethrough,
Description
"Ap y6, 1943. J.. w. HUFFSTUTTER f CIRCUIT INTERRUPIER4 Find Nov. 26, 1941 Patented Apr. 6, .1943 n Westinghouse Electric & Manufacturing Company, East Pittsburgh, Pa., a corporation oi' y Pennsylvania l y Application November 26, 1941, Serial No. 420,514
11` claims.,r (ci. 20o-149) v l minal structure t is substantially cylindrical in Thisinventionfrelates generally tov electric circuit interrupters, and more specifically to inter-y rupters of the gas blast type.
In interrupters which utilize a gas yblast generated by thearc for extinguishing the arc formed upon movement of one contact of thek interrupter away from its cooperating contact, itis desirable that the gas exhaust take rplace longitudinallyof the arc so that the gases will pass through the entire arc length. In order to do this, itis necessary that the hot ionized gases be Wards one of the contacts.
One object of'this invention is to provide a novel contact construction for circuit interrupters having relatively xed j and movable contacts, wherein lthe arc gases are directed through one directed toform, and ls'provided with a transversely extendlng centrally apertured portion l2 adapted to seat onthe end of insulating tube 2,y with the aperture thereof aligned rwith bore I0, and this parti-y tionalso serves tov retain washer-like members l within insulatingtube 2. f The end terminal structure luis likewise provided with a 'transversely extending apertured partition Il for recontact which is provided with means for shieldv ing it from the deleterious eiiects of such gases.A
Another object of this invention is to provide in an interrupter of the' typek described, a novel hollow ilxedcontact construction having shielding means for protecting the contact from the arc and arc gases. g, f
These and other oblcts of this invention will become more apparentupon consideration ofthe following detailed description of preferred embodiments thereof taken in connection withy the attached drawing, in which;
Figure 1 is a longitudinal, sectional view of` a circuit interrupter constructed in accordance with this invention with the interrupter contacts shown in open circuit position, and
Fig. 2 is apartial sectional view of an interrupter similar to Fig. 1 with the interruptor con- Xtacts shown in the closed circuit position, and with a modified form of control means for the contacts.
The circuit lnterrupter shown in Figs. 1 and 2 of the drawing is preferably provided in a tu bular insulating housing 2,lwhich maybe of any desired insulating material, such, for example, as fiber, a synthetic resin, or thelike. The insulating tube 2 has the opposite ends thereof threaded for threadedly receiving cap-like end terminal structures 4 and 6, respectively. Interiorly of insulating tube 2 there is preferably Lprovided a plurality of washer-like members 8 having a central aperture therethrough, with the apertures of all the members aligned to form a restricted arc bore I 0. The washer-like members 8 `are preferablyof an insulating material which is capable of evolving an arc extinguishing Sas when in proximity to an electric arc, such, for example, as boric acid, ber, a synthetic resin having this property, or the like. The end ter- .taining washerlike members 8 within insulating tube'y 2, and with the' aperture in the partition aligned with bore I0.
'I'he end terminal structure 6 is provided with` an intermediate, integral, transversely extending partition I5 having. a central aperture for a purpose to be hereinafter reierredto, and adapted to support on opposite sides of this aperture contact fingers i8, pivoted as at I8 on the partition. These pivoted contact fingers I6 provide the stationary contact structure for the interrupter, and l they` are resiliently biased towards each other and towardsV the central axis of the rinterrupter by a coil compression rspring `2Il for each pivoted con'- tact I6, and positioned between the contact and the outer cylindrical wall ofterminal structure i. The pivoted contact fingers I6- are electrically connected with terminal structure 6 by iiexible shunts 22 which may be soldered or otherwise secured to the contactiingers and the side wall'of the terminal structure. The outer end wall ofy terminal structure 6 is also provided with acentral aperture 24 which is aligned with bore I0 and the aperturesk through partitions I2 and I5, for slidably receiving Athe outer end 26 cfa contact follower shield member. This shield member may be of rintegral construction, butr preferably, for assembly purposes, is made of two parts as shown, including an outer end portion 2B having an outwardly'flaring outlet passage 28 therethrough, and an outwardly extending flange 29 ai; the inner end thereof, i and an inner end portion 30,
`threadedly engaged with outer portio'ny26 and adapted to be slidably mounted in the aperture in partition I5. lThe inner portion 30 of the shield is also provided with a central passage having an outwardly ilared entrance 32 which is aligned and communicates with ilared outlet passage 28. It will be noted that the follower shield is slidably mounted in aperture 24 and the aperture in vpartition wall I5, and a coil compression spring 34 is seated between the flange 29 of the follower and the outer end wall of terminal structure lA so as to continually'bias the follower inwardly with' respect to the terminal housing.v This inward movement of the follower ls limited by. engagement of ange 29 with partition I5, and the follower is movable outwardly from the position shown in Fig. l to that shown in Fig. 2, by engagement of movablel contact rod 36 therewith.
The contact rod is adapted to be maintained in a closed circuit position wherein the inner end thereof is positioned between contact fingers I6, by a slidable latch bar 44 movably mounted through the side wall of terminal structure 4 and engageable in notch 50, formed adjacent the outer end of contact rod 36. The latch bar 44 is provided with a flange 46 at the inner edge thereof, and a coil compression spring 48 seated between. the flange 46 and side wall of terminal structure 4 is adapted to continually bias the latch bar inwardly into engagement with contact rod 36. The outer end of latch bar 44 is pivotally connected to one arm of a bell crank lever 52, and the other arm of the bell crank lever is provided with a hook eye 54 for the reception of a hook-stick operating member or the like, for retracting the latch bar 44 from notch 50. It will also be noted that contact rod 36 is electrically connected to terminal structure 4 by means of a flexible shunt 66 secured to the terminal structure and the enlarged head 40 on the contact rod.
In the embodiment of the invention shown in Fig. 2, latch bar 44 is under the control of bell crank lever 58, which, in turn, is pivoted to the plunger rod 60 of a solenoid 62.
In the operation of the interruptor shown in Figs. l and 2, it will be observed that in the closed circuit position shown in Fig. 2, the circuit through the interrupter extends from terminal structure 6 through flexible shunts 22, contact fingers I6, contact rcd 36, flexible shunt 56 to terminal structure 4. It will also be observed that the contact rod is maintained in the closed circuit position by engagement of latch bar 44 in notch 50, with operating spring 42 in a compressed condition. Now, upon a circuit inter rupting operation caused by withdrawal of. latch bar 44 from notch 5B, it will be apparent that the operating spring 42 will then be free to move contact rod 36 downwardly out of engagement with Contact fingers I6 and the arc will be drawn out in bore I0 where it is restricted and subjected to the action of the gases evolved from the material comprising washer-like members 8. In order that a blasting action of such cases may take G0 place longitudinally through the entire extent of the are, and be exhausted through the fixed contact structure, this structure, including the follower shield 26, 30 is provided with the passages 32, 28 which in effect form a Venturi outlet to aid in the blasting action. It will be observed that as soon as contact rod 36 moves downwardly from the position shown in Fig. 2. that it will be closelyr followed by the follower shield moving under the influence of its spring 34. FurthermoreY but a relatively small movement of contact rod 36 downwardly. will be required before contact fingers I6 are completelycovered by the inner portion 3i] of the follower shield, and since the shield is of some good conducting material such, for example, as copper or a copper alloy, the arc will be transferred from the contact fingers to the shield, and furthermore, the hot gases expelled from arc bore l0 will be prevented from contacting contact fingers I5, because the shield forms a passage independent of these contact fingers.
Obviously, by this construction the contact fingers I6 of the fixed contact construction are not only protected from the deleterious effects of arclng, but are also protected from the high temperature and high velocity of the gases expelled from bore I0, which would cause excessive erosion of the contact surfaces were it not for follower shield 26, 30. This erosion of contacts I6, as well as deposits of material thereon from gases evolved, would obviously result in a very poor contact between contact fingers I6 and contact rod 36 when the lnterrupter was reclosed. With the construction described above, the fixed contact fingers I4 are entirely protected from the effects of the arc and hot gases expelled, while at the same time an outlet is provided through the fixed contact construction for the arc gases in novel manner.
In the embodiment of the invention shown in Fig. l, latch bar 44 is readily released to effect a circuit interrupting operation by merely pulling downwardly on hook eye 64. In the embodiment shown in Fig. 2 of the drawing, latch bar 44 is adapted to be released by energization 0f solenoid 62, and this may be remotely controlled, or the solenoid maybe connected in the interrupter circuit so as to be responsive to predetermined electrical conditions to effect a circuit interrupting operation of the interruptor.
After a circuit interrupting operation, it is obvious that the circuit may be reclosed by moving contact rod 36 upwardly from the position shown in Fig. 1, for example, as by a force exerted on the flanged head 4I) thereof. In its upward movement, the contact rod will first engage the inner end of inner portion 30 of the follower shield and thereafter cause movement of the shield upwardly while the inner end of the contact rod moves between contact fingersl I6 to the position shown in Fig. 2 of the drawing, wherein the circuit through the interrupter is reestablished.
From the foregoing it is believed to be readily apparent that the circuit interrupter herein disclosed is provided with a novel fixed contact construction embodying a follower shield means capable of not only protecting the fixed contacts from arcing, but also providing a passage for gases expelled during interruption, while protecting the nxed contacts from the deleterious effects of such gases. It is also apparent that this invention provides a hollow contact construction with hollow shielding follower means assoclated therewith providing a gas passageway therethrough of optimum design, and which is automatically operable upon a circuit interrupting operation to shield and protect the contact from arcing and from the hot gases expelled.-
Having described preferred embodiments of the invention in accordance with the patent statutes, it should be understood that the invention is not to be limited to the particular embodiments herein described, inasmuch as it will be obvious, particularly to those skilled in the art that many changes and modifications may be -made in these particular embodiments without departing from the broad spirit and scope of this invention. Thus, for example, although the interruptor is shown for use with substantially circular contacts, it is apparent that contacts having other cross-sectionalfforms can be readily used with this invention. Therefore, it is desired that the invention be interpreted as broadly as possible in view of the prior art.
I claim as my invention: k
l.' In a circuit interrupter, separable contacts one of which is tubular to receive'the other in closed circuit position and to vent the arc gases formed when said contacts separate, and tubular shielding means telescopically engaged with said one contact and automatically movable in response to separation of said contacts to a shielding position with respect to said one contact.
2. In a circuit interrupter, separable contacts one oi' which is tubular to receive the other in closed circuit position and to vent the arc gases formed when said contacts separate, and tubular shielding means `of conducting material telescopically engaged with said one contact and automatically movable in response to separation of said contacts to a shielding position with respect to said one contact and to a position closer to said other contact than said one contact so that the arc drawn will be transferred to said shielding means.
3. In a circuitinterrupter, relatively xed and movable contact means, said fixed contact being tubular to receive said movable contact in closed circuit position and to vent the arc gases formed when said movable contact is moved away from said fixed contact, and a tubular shielding means adapted for telescoping movement in said fixed contact in response to movement of said movable contact away from said fixed contact to shield the inner wall of said fixed contact from the deleterious effects of said arc gases.
4. In a circuit interrupter, relatively fixed and movable contact means, said fixed contact being tubular to receive said movable contact in closed circuit position and to vent the arc gases formed when said movable contact is moved away from said fixed contact, tubular shielding means adapted for telescoping movement in said fixed contact in response to movement oi' said movable contact away from said iixed contact to shield the inner wall of said fixed contact from the deleterious eiects of said arc gases, and said shielding means having a flared outlet.
5. In a circuit interruptor, relatively fixed and movable contact means, said xed contact being tubular to receive said movable contact in closed circuit position and to vent the arc gases formed when said movable 'contact is moved away from said fixed contact, tubular shielding means of conducting material adapted i'or telescoping movement in said fixed contact in response to movement of said movable contact away from said fixed contact to shield the inner wall oi said fixed contact from the deleterious effects of said arc gases, and to a position closer to said other CII contact said shielding means will follow to shield said fixed contact from the arc gases, and stop means for preventing such following kmovement of said shielding means substantially beyond its shielding position.
7. Inv a circuit interrupter, a tubular casing of insulating material having an. open end, spaced terminals on said casing, interrupting means in said casing including a tubular contact means adjacent said open end of the casing, and a rod-like contact movably mounted. longitudinally of said casing, said contacts electri-r l cally connected to said terminals, respectively,
means of insulating material in said casing forming a restricted arc passage in which said rod-likecontact is adapted to move, at least inner Wall portions of said passage being of a material capable of evolving an arc extinguishing gas when in proximity to an electric arc,
arc gases, separable contacts in said chamber,
one of which is positioned in the path of gases escaping from said vent when the circuit is interrupted, and shielding means movable in response to separation of said contacts to a position for shielding said one contact from the deleterious effects of said gases.
9. In a circuit interrupter, means forming an arc chamber having an opening for venting the arc gases, separable contacts in said chamber,
contact than said one contact so that the arc t one of which is positioned in the path of gases escaping from said vent when the circuit is interrupted, and shielding means of conducting material associated with said one contacty and movable in responseto separation of said contacts to a positionfor shielding said one contact from the deleterious effects of said gases for relieving said one contact of arcing.
10. In a circuit interrupter, means forming an arc chamber having an opening for venting the arc gases, separable contacts in said chamber, one of which is positioned in the path oi' gases escaping from said vent when'the circuit is interrupted, and tubular shielding means movable axially of said opening to a position shielding said one contact from the arc gases and providing a passage for saidgases axially to said vent opening. f
11. In a circuit interruptor, means forming an arc chamber having an opening for venting the arc gases, separable contacts in said chamber, one of 'which is positioned in the path of gases escaping front said vent when the circuit is interrupted, tubular shielding means normally positioned in said vent opening and substantially filling the same, with at least a portion thereof projecting outwardly through said vent opening, means moving said shielding means into said chamber kin response to separation oi' said contacts to a position shielding said one contact, and means limitinginward movement of said shielding mea-ns so that a portion thereof remains in said vent opening to conduct the arc gases therethrough,
VJOHN W. HUrrsTUTrEr-t.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US420514A US2315618A (en) | 1941-11-26 | 1941-11-26 | Circuit interrupter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US420514A US2315618A (en) | 1941-11-26 | 1941-11-26 | Circuit interrupter |
Publications (1)
Publication Number | Publication Date |
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US2315618A true US2315618A (en) | 1943-04-06 |
Family
ID=23666785
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US420514A Expired - Lifetime US2315618A (en) | 1941-11-26 | 1941-11-26 | Circuit interrupter |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2474970A (en) * | 1946-02-14 | 1949-07-05 | Eugene M Calkins | Overload protection mechanism |
US2493347A (en) * | 1943-09-15 | 1950-01-03 | George L Hill | High-voltage circuit breaker for distribution lines |
US2532258A (en) * | 1944-02-16 | 1950-11-28 | Gen Electric | Electric circuit interrupter |
US2566095A (en) * | 1946-01-21 | 1951-08-28 | Scarpa Giuseppe | Oil circuit breaker |
US2567236A (en) * | 1944-01-29 | 1951-09-11 | Westinghouse Electric Corp | Circuit interrupter |
US2567768A (en) * | 1946-03-15 | 1951-09-11 | Westinghouse Electric Corp | Circuit interrupter |
US2568470A (en) * | 1949-12-29 | 1951-09-18 | Gen Electric | Progressive arc quencher |
US2601138A (en) * | 1949-03-12 | 1952-06-17 | Hivoltage Equipment Company | High-voltage switch |
US2608599A (en) * | 1949-09-21 | 1952-08-26 | Gen Electric | Arc extinguishing device |
US4205209A (en) * | 1979-02-07 | 1980-05-27 | Societe Anonyme Dite: Delle-Alsthom | Articulated contact finger |
DE3330959A1 (en) * | 1983-08-27 | 1984-04-05 | Ritter Starkstromtechnik GmbH & Co, 4600 Dortmund | SF6 switching cartridge |
-
1941
- 1941-11-26 US US420514A patent/US2315618A/en not_active Expired - Lifetime
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2493347A (en) * | 1943-09-15 | 1950-01-03 | George L Hill | High-voltage circuit breaker for distribution lines |
US2567236A (en) * | 1944-01-29 | 1951-09-11 | Westinghouse Electric Corp | Circuit interrupter |
US2532258A (en) * | 1944-02-16 | 1950-11-28 | Gen Electric | Electric circuit interrupter |
US2566095A (en) * | 1946-01-21 | 1951-08-28 | Scarpa Giuseppe | Oil circuit breaker |
US2474970A (en) * | 1946-02-14 | 1949-07-05 | Eugene M Calkins | Overload protection mechanism |
US2567768A (en) * | 1946-03-15 | 1951-09-11 | Westinghouse Electric Corp | Circuit interrupter |
US2601138A (en) * | 1949-03-12 | 1952-06-17 | Hivoltage Equipment Company | High-voltage switch |
US2608599A (en) * | 1949-09-21 | 1952-08-26 | Gen Electric | Arc extinguishing device |
US2568470A (en) * | 1949-12-29 | 1951-09-18 | Gen Electric | Progressive arc quencher |
US4205209A (en) * | 1979-02-07 | 1980-05-27 | Societe Anonyme Dite: Delle-Alsthom | Articulated contact finger |
DE3330959A1 (en) * | 1983-08-27 | 1984-04-05 | Ritter Starkstromtechnik GmbH & Co, 4600 Dortmund | SF6 switching cartridge |
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