US2272380A - Circuit interrupter - Google Patents

Circuit interrupter Download PDF

Info

Publication number
US2272380A
US2272380A US313736A US31373640A US2272380A US 2272380 A US2272380 A US 2272380A US 313736 A US313736 A US 313736A US 31373640 A US31373640 A US 31373640A US 2272380 A US2272380 A US 2272380A
Authority
US
United States
Prior art keywords
arc
gas
blast
chute
plates
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
Application number
US313736A
Other languages
English (en)
Inventor
Leon R Ludwig
Herbert L Rawlins
Benjamin P Baker
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CBS Corp
Original Assignee
Westinghouse Electric and Manufacturing Co
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority to NL67950D priority Critical patent/NL67950C/xx
Priority to BE483217D priority patent/BE483217A/xx
Application filed by Westinghouse Electric and Manufacturing Co filed Critical Westinghouse Electric and Manufacturing Co
Priority to US313736A priority patent/US2272380A/en
Priority to GB334/41A priority patent/GB544152A/en
Priority to CH218490D priority patent/CH218490A/fr
Application granted granted Critical
Publication of US2272380A publication Critical patent/US2272380A/en
Priority to FR938275D priority patent/FR938275A/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H33/00High-tension or heavy-current switches with arc-extinguishing or arc-preventing means
    • H01H33/70Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid
    • H01H33/76Switches with separate means for directing, obtaining, or increasing flow of arc-extinguishing fluid wherein arc-extinguishing gas is evolved from stationary parts; Selection of material therefor

Definitions

  • This invention relates to improvements in circuit interrupters and, more particularly, to circuit breakers of the air break type wherein an arc established between separable contacts is extinguished by a blast of air or other suitable gas.
  • Compressed air has been recognized as a suitable arc extinguishing medium by the electrical engineering profession for some time. Particularly in European countries, considerable progress has been made in the development of circuit breakers of this type. This development, however, has led tothe almost universal adoption of the longitudinal blast interrupter wherein the stationary contact is arranged in the form of a nozzle at the end of a pressure chamber in which the arc is drawn. Compressedair is admitted to the pressure chamber and blasts the arc principally along its longitudinal axis in order to bring about arc extinction.
  • the longitudinal blast type of interrupter is fairly eicient at low interrupting capacities, it has armarked disadvantage at high interrupting capacities since the amount of air required to effectively extinguish the arc increases rapidly with an increase in current.
  • the interrupting capacity of the longitudinal blast type of interrupter has a practical upper limit which is principally determined by the maximum practical air pressure available.
  • the main object of our invention is to improve the interrupting ability -of gas blast circuit breakers without resorting to high gas pressures.
  • This object particular attention has been given to the method of treatment of the arc in the presence of a cross blast of gas, which method contemplates utilizing the gas blast morel eiectively to quickly remove the ionized gas particles from the arc stream so as to render the inter-contact space non-conducting in the short interval of time during which the arc current passes through zero.
  • a further object of our invention is to provide an arc extinguishing structure of the aforesaid type employing spaced gas forming arc splitter plates, but in which provision is made for sweeping away the ionized arc gases surrounding the arc substantially as quickly as these gases are formed, to thereby make the intercontact space non-conducting at the first current zero.
  • the particular structure whereby this improved result is obtained depends upon the arc chamber configuration, as well as the method of directing the air blast upon the arc stream, and will be specically described hereinafter.
  • Our invention further contemplates improving the interrupting ability of a gas blast interrupter of the cross blast type by confining the arc to a slot-like passage in the 'arc splitter plates and arranging these plates so that they diverge from each other in the direction of gas flow in order that more accurate control of the' arc may be obtained.
  • the converged or arc receiving ends of the splitter plates are closely spaced and tapered so as to obtain uniform spacing therebetween, thus avoiding a change in spacing as the plates erode due to frequent circuit interrupting operations.
  • Another object of our invention resides in the improvement of the circuit interrupting ability of gas blast circuit breakers by the provision of a more effective treatment of the ionized gases driven from the arc stream 4by the blast of 'compressed gas.
  • a greater volume of gas is generated by the arc at the side of the arc chute adjacent the stationary contact. This gas must be allowed to escape freely and uniformly from the space surrounding the arc and at the same time must be cooled sulficiently so that an arc will not reform across an ionized path at any point along the length of the splitter.
  • the splitters are arranged with a decreasing degree of divergence from the stationary contact side of the arc chute in the direction of movement of the movable contact.
  • the arc gases driven into the arc chute must also be sufficiently cooled and deionized by the time they reach the exhaust end of the chute so that reignition across the ends of the splitter plates will not take place.
  • Our invention also has for its object the proper spacing of the metallic cooling elements along the arc splitter plates in an endeavor to decrease the velocity of the ionized gas so as to obtain the maximum cooling elect incident to long time exposure of the gas to the cooling elements but without decreasing the velocity of the gas to such an extent that excessive back pressure is obtained.
  • Fig. 2 is a sectional view taken longitudinally of the circuit interrupting unit of the circuit interrupter shown in Fig. 1;
  • Fig. 3 is a sectional view of the circuit interrupting unit of Fig. 2, taken at right angles thereto and along the line III-III of that figure.
  • the reference number 5 designates a frame for supporting a tank 1 in which gas, such as air, may be stored under pressure.
  • the upper side of the pressure tank 1 is provided with a flanged outlet conductor 9 upon which is 'mounted a hollow insulator II.
  • Mounted upon the upper end from the hollow insulator II is an arc extinguishing unit generally indicated at I3.
  • the arc extinguishing unit as more clearly shown in Fig. 2, includes a stationary contact assembly I5 comprising a plurality of yieldingly mounted contact fingers I1 supported in a box-like compartment I9 disposed between the two side walls 2I of the arc extinguishing unit.
  • are preferably of insulating material and cooperate with the end walls 23 and 25 to form a ilared are chute, as shown.
  • the wall 25 joins a wall 21 so as to define one narrow side of an arc chamber.
  • Opposite the wall 21 is a. wall 29 which joins the box-like structure I9 housing the stationary contact assembly I5.
  • the walls 25 and 21 are pro vided with a slot-like aperture 3
  • the moving contact 33 is mounted for pivotal movement at 35 to a bracket 31 clamped about the hollow insulator II.
  • the bracket 31 is of conducting material and is provided with an extension 39 which serves as a terminal to which external circuit connections may be made.
  • the stationary contact assembly I5 is provided with a similar terminal 4I for also making connection to the external circuit.
  • Operation of the moving contact 33 to the open and closed circuit position is effected by an air actuated mechanism 43 supported from the side of the pressure tank 1.
  • the lmechanism 43 includes a piston (not shown) operable within the cylinder 45, which piston is connected by a rod 41 to a bell crank 49 pivotally mounted at 5I.
  • the bell crank 49 is coupled by a link 53 to the movable contact 33.
  • Air to operate the mechanism 43 to open and closed circuit positions is admitted to the cylinder 45 by valves 55 and 51, respectively.
  • the control of these valves may be effected in any conventional form and does not constitute a part of the present invention.
  • the bell crank 4! is also provided with a cam mechanism 59 which actuates a pivoted rocker arm 8
  • the valve 63 controls the flow of air from the tank 1 into the hollow insulator II.
  • the passage through the insulator I I is provided with a gas directing nozzlev G5 at the upper end thereof which extends into the entrance portion of the arc extinguishing unit I3 defined by the end walls 21 and 29 and the lower sides of the two side walls 2
  • the valve 63 is opened to' admit the required blast of gas to extinguish the arc.
  • the operating mechanism including the cam means 59 and the air blast control valve 63 are not a part of this invention but are more fully disclosed and claimed in the application of A. H. Bakken Serial No. 313,745 led January 13, 1940, and assigned to the assignee of this application, it is not deemed necessary to further describe such mechanism.
  • our invention is particularly directed to the arc extinguishing structure of a circuit breaker, the same will now be specifically described.
  • and thel Walls 23 and 25 form an arc chute for extinguishing the arc formed between the contacts
  • the lower end of the arc chute is provided with a pair of lining members 61 disposed along the inside walls of the walls 2
  • in the walls 25 and 21 communicates with the passageway'69 and is preferably disposed centrally thereof.
  • are a plurality of arc splitter plates 13 preferably of material which gives off gas when acted upon by an arc such as fiber.
  • the plates 13 are preferably supported along their side edges in grooves provided for that purpose disposed on the inner surface of the walls 2
  • the lower end of the arc splitted plates 13 are adapted to be received by suitable slots formed in the lining member 61, as more clearly shown in Fig. 3.
  • the arc splitter plates 13' are also provided with a U-shaped notch or slot 15 extending inwardly from the lower end thereof so as to form a passageway through which the moving contact 33 may operate.
  • the lower ends of/the splitter plates 13 are tapered for a distance somewhat greater than the length ofthe notches 15 so as to provide spaces 11 of uniform width between the ends of the plates. It will be seen that by making the spaces 11 of uniform width, the spacing will not be affected by erosion of the plates 13 as a result of action of the arc thereon. Disposed above' the notches 15 and in the spaces between the plates 13 are a plurality of short plates 'i9 of conducting material. .A single plate 19 is preferably symmetrically positioned between two adjacent plates 13 and, for example, may be held in position by having their side edges recessed in the lining members 61.
  • the plates 19 are preferably tapered, as shown, and have their lower edges curved for the purpose of offering less resistance to the flow of gas therearound. The purpose of the plates 19 will appear more fully hereinafter. Also disposed in the spaces between the arc splitter plates 13 are a plurality of metallic cooling elements 9
  • will also be more fully described in connection with the operation of the arc extinguishing structure.
  • the metallic plates 19 in addition to serving as buffers to prevent excessive elongation of the arc, also serve as coolers to initially cool the hot arc gases. As the arc gases pass beyond the buffer plates 19, they encounter the metallic cooling elements 8
  • the particular arrangement of the slot structure in the splitter plates for positioning the arc with respect to an arc passage of predetermined width permits the air blast directed against the arc to remove the ionized gases surrounding the arc substantially as quickly as these gases are formed and thus insure prompt circuit interruption at the first current zero.
  • a slot width of approximately l1/ inches and a length of approximately 3 'nches in the splitter plates 13 is suitable when used in conjunction with an air blast passage 69 having a width of approximately 2 inches, and which starts to diverge at a point approximately 11/2 inches from the closed end of the notches 15.
  • the preferred amount of divergence of the air blast passage is from 2to approximately 7 inches for a longitudinal length of approximately 21/2 inches.
  • a further improvement in the interrupting ability of our arc extinguishing structure is obtained by directing the blast o1 air from the nozzle G into the gas blast passage 69 at an angle with respect to the vertical longitudinal axis thereof.
  • the nozzle 65 extending into the insulator I l has a discharge opening of generally circular cross section and its longitudinal axis generally in alignment with the right-hand arc splitter plate 13 so that the gas blast is directed generally to the end oi the arc formed adjacent the stationary contact I1. Directing the blast of gas towards the stationary contact renders the interrupter more eflloient during the interruption of both light and heavy currents. During interruption of the circuit, the arc will be extinguished before appreciable contact separation has taken place if the current zero occurs at that time, in that the gas blast is directed upon the section of arc immediately adjacent the stationary contact.
  • the splitter plates 13 are not uniformly spaced as shown. That is, the degree of divergence of the plates decreases progressively in the direction of movement of the movable contact.
  • the ci ficiency of the interrupter also largely depends upon its ability to quickly cool and deionize the arc gases driven into the gas discharge spaces adjacent the arc splitter plates.
  • the cooling elements 8l are made more numerous in the region of the exhaust portion of the arc chute whereas they are more sparse at the entrance portion of the gas discharge spaces. This arrangement is provided in order to subject each cooling element to substantially the same amount of heat and also to avoid decreasing the velocity of the discharged gas to such an extent as would cause excessive back pressure. This is based upon the theory that the cooling effect oi the metallic cooling elements is proportional to the time of exposure to the hot gases.
  • a further improvement in the circuit interrupting performance of our device is obtained by shaping the cooling elements 8
  • This particular arrangement has the advantage that it deflects the hot arc gases away from the arc splitter plates 13, thereby preventing the further formation of gas during movement of the gas through the gas discharge spaces.
  • a gas blast circuit interrupter relatively movable contacts for establishing an arc, means ldefining a passage for directing a blast of gas transversely of the arc gap formed upon separation of said contacts, the side walls of said passage diverging rapidly in a' direction laterally of the arc in the region of contact separation, means causing a blast of gas to flow through said passage of velocity suflicient to prevent substantial divergence of the gas stream at the diverging portion of said passage during the existence of relatively small current arcs, and partition members at least partially of gas forming material disposed in spaced relation transversely of said passage and having their ends extending close to Asaid arc gap, said blast of gas driving the arc against the ends of said partition members, said partition members having the ends thereof against which the arc is driven positioned in the widened portion of the diverging passage and producing gas under pressure during the existence of relatively high current arcs and causing said gas blast to be deflected to either side of the arc at the widened portion of said
  • an arc chute having a relatively narrow entrance portion, an exhaust portion and an intermediate portion which rapidly diverges in width laterally of the arc towards said exhaust portion, relatively movable contacts separable at least partially in said widened intermediate portion to establish an arc, a plurality of spaced plate members of insulating material extending across said arc chute within said exhaust and said intermediate portions, and means for directing a high velocity blast of gas into said entrance portion to drive said arc against the ends of said plate members, said plate members having anA inwardly extending notch wherein said arc is adapted to play, said notches having a width less than the width of said intermediate portion at the notches to hold the arc outof engagement with the sidewalls of said chute and permit said blast of gas to sweep the ionized gas substantially as quickly as formed from the intermediate portion of the arc chute to the exhaust portion thereof.
  • a gas blast circuit interrupter means defining a relatively narrow passage, spaced plate means at least partially of gas forming material extending across said passage, contact means for drawing an arc transversely of said passage adjacent and across the ends -of said plate means, and means directing a blast of gas of high velocity into said passage to drive the arc against the ends of said plate means, said gas directing l means being aimed to cause said blast of gas to play principally upon a relatively short first formed section of the arc and to flow in almost a straight line out of the gas directing means and through the space between said plate means adjacent said short section of arc.
  • an arc chute having an entrance portion and an exhaust portion, separable contact means for establishing an arc transversely of said entrance portion, a plurality of spaced arc splitter plates arranged across said arc chute edgewise with respect to the path of the arc, and means directing a blast of gas of high velocity into said entrance portion for moving the arc against the edges of said splitter plates, said gas blast distraight line from the gas blast directing meansl through the rst space adjacent said end of the arc, said splitter plates comprising material which gives oil gas when acted upon by an arc and being adapted when subjected to relatively large current arcs to cause the gas given off to be directed principally through the remaining spaces between said splitter plates for quickly driving the ionized gases to the exhaust portion of the arc chute.
  • an arc chute having a constricted entrance portion and an exhaust portion, said arc chute diverging in width laterally of the arc from said entrance to said exhaust portion, separable contact means for establishing an arc transversely of said arc chute, a plurality of spaced are splitter plates disposed across said arc chute and arranged edge- Wise 'with respect to the path of the arc, said splitter plates having the edges thereof engaged by the arc positioned in th'e widened portion oi the arc chute, andnozzlemeansfordirecting ahigh velocity blast of gas into the entrance portion of said chute for moving the arc against the edges of said splitter plates, said nozzle means directing said blast of gas substantially upon one end 0f said arc and causing said blast to exhaust principally through the spaces between the splitter plates adjacent said end of the arc during the extinction of relatively small current arcs, said splitterk plates being composed at least in part of gas forming material which when subjected to relatively large current arcs,
  • an arc chute having an lentrance portion and an exh'aust portion, a plurality of spaced partitions arranged across said chute, said partitions diverging from the entrance portion toward the exhaust portion of the chute and being provided With a U-shaped notch at the converged ends thereof, relatively movable contacts for establishing an arc in said notches, and means for directing a blast of gas transversely of said arc to drive it against the closed ends of said notches, the converging ends of said partitions being tapered to provide uniform spacing therebetween for a distance at least equal to the length of said arc receiving notches.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of spaced partitions of insulating material arranged across said chute, said partitions diverging from the entrance portion toward the exhaust portion of said chute and having a, slot at the converged ends thereof, means for establishing an arc in said slots, means for directing a blast of gas into the entrance portion of said chute to move the arc toward the closed ends of said slots, and metallic plate means disposed in spaced relation to said partitions in the diverging spaces between said partitions and extending adjacent the closed ends of said slots for limiting movement of the arc between said partitions in th'e region of said slots and for cooling the arc gases.
  • an arc chute having a throat-like entrance portion and a flared exhaust portion, spaced arc splitter plates of insulating material arranged across said chute to divide the chute into a plurality of gas discharge passages, said arc splitter plates extending from said throat portion to adjacent the exhaust end of said chute and having arc receiving slots adjacent said throat portion, 5
  • an arc chute having a throat-like entrance portion and a flared exhaust portion, spaced arc splitter plates of insulating material arranged across said chute to divide the chute into a plurality of gas discharge passages, which increase progressively in cross section toward said exhaust portion, said arc splitting plates having arc receiving edges adjacent said throat portion, means for establishing an arc adjacent said edges, means for blowing a blast of gas into said throat portion to force the arc to against said edges, and plate means of conducting' material arranged across said chute in the ilared gas discharge passages and extending to within a relatively short distance of said edges for preventing excessive looping of the 'arc into said gas discharge passages, said arc'splitter plates being composed at least in part of a material which gives off gas when acted upon by an arc, said plate means of conducting material being spaced from the arc 3 splitter plates on each side thereof and permitting said blast of gas to sweep the ionized gases from around the arc into the flared exhaust portion of
  • an arc chute having an entrancev portion and an exhaust portion, a plurality of partitions ⁇ extending across said chute and arranged to diverge from each other in a direction toward said exhaust portion, means for drawing an arc across the converged ends of said partitions, and means for directing a blast of gas into said entrance portion for moving the arc against the ends osaid partitions, said partitions being progressively more closely spaced in the direction in which said arc is drawn to provide gas discharge spaces between adjacent partitions which are approximately proportional to the quantity of gas to be dischargedA therethrough during each circuit interrupting operation.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of arc splitting plates of insulating material extending across said chute and being arranged to diverge from each other in'a direction toward said exhaust portion, means for drawing an arc across the converged ends of said partitions, means for injecting a blast oi' gas into said entrance portion to drive the arc against the ends of said arc splitting plates, vand a plurality of metallic cooling elements disposed across each of the spaces between adjacent arc splitting plates for cooling and deionizing the arc gases discharged through said 7 spaces, said cooling elements being more numerous per unit length along said plates in a direction toward said exhaust portion.
  • an arc chute having an entrance portion and an exhaust 75 portion, a pluralityv of arc splitting plates oi' insulating material arranged in diverging relation across said chute with their converged ends adjacent the entrance portion thereof to divide said chute into a plurality of gas discharge passages, said arc splitting plates having a progressively decreasing degree of divergence from one side of said chute to the other, means for establishing an arc across the converged ends of said plates, means for subjecting said arc to a lateral blast of gas, and a plurality or metallic cooling elements disposed across eachI of said passages, said cooling elements being more numerous in the discharge passages of greater divergence and also more numerous in each discharge passage at the exhaust portion than at the entrance portion in order to provide a maximum cooling eiiect without creating excessive back pressure in each of said passages.
  • an arc chute In a gas blast circuit interrupter, an arc chute, a plurality of partitions or insulating material extending across said chute to divide it into a plurality of gas discharge passages, means for establishing an arc across one end of said partitions, means subjecting said arc to a lateral blast of gas, said blast of gas driving the ionized gas from the arc stream into said gas discharge passages, and cooling means disposed in said passages for cooling and deionizing said arc gases, said cooling means comprising a plurality of curved perforated metallic plates disposed with their concave sides facing the flow of gas through said passages and positioned at spaced intervals along said passages, said curved metallic plates defiecting the hot arc gases away from said partitions to avoid further formation of gas by the action of the hot arc gases on said partitions.
  • a gas blast circuit interrupter means defining a relatively narrow passage, spaced plate means of insulating material extending across said passage, contact means for drawing an arc in said passage adjacent and generally normal to the ends of said plate means, and means for directing a high velocity blast of gas against the arc at an angle with respect to the longitudinal axis of the arc for moving the arc inclined toward the first-formed section of the arc against the ends of said plate means and subjecting a relatively short first-formed section of the arc to substantially the full effect of said blast.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of spaced partitions of insulating material arranged across said chute, said partitions diverging from the entrance portion toward the exhaust portion of said chute, means for establishing an arc in a direction generally normal to the converging ends of said partitions, means for directing a blast of gas into the entrance portion of said chute to move the arc against the converging ends of said partitions, and buier plates of conducting material and of substantially less length than said partitions disposed in the diverging spaces between said partitions adjacent but spaced from the converging ends thereof, said buier plates acting to confine the arc in the region of the converging ends of said partitions.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of spaced partitions arranged across said chute, said partitions diverging from the entrance portion toward the exhaust por tion of the chute, relatively movable contacts for establishing an arc across the converging ends of said partitions, and means for directing a blast of gas laterallyl of said -arc to drive it against the ends of said partitions, the converging ends of said partitions being tapered to provide uniform spacing therebetween at least in the region of ar-c engagement.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of arc splitting plates of ⁇ 1nsulating material arranged in diverging relatlon across said chute with their converged ends adjacent the e. trance portion thereof to divide said chute into a plurality of gas discharge passages, said arc splitting plates having a progressively decreasing degree of divergence from one side of said chute to the other, means for establishing an arcacross the converged ends of sa1d plates, means for subjecting said arc to a late ral blast of gas, and a plurality of metallic cooling elements disposed across eachof said passages.
  • an arc chute in which an arc may be established, said arc chute having a constricted entrance portion,v
  • an arc chute in which an arc may be established, said arc chute having a constricted entrance portion, an exhaust portion and a portion widened laterally of the arc between the constricted entrance portion and the exhaust portion, spaced partition members in the arc chute having at least portions adjacent the path where the arc is ⁇ established of insulating material which gives off gas when acted upon by the arc, means causing gas under pressure to flow into the arc chute through the constricted entrance portion and blow the arc against the edges of said partition members, said edges of the partition members against which the arc is blown being in said widened portion of the arc chute, and means for holding the arc against substantial lateral movement in said widened portion of the arc chute and directly in the concentrated blast of gas from the constricted entrance portion.
  • an arc chute In a gas blast circuit interrupter, an arc chute, a movable contact for drawing an arc therein, said arc chute having a narrow entrance portion, a portion widened in a direction transversely of the arc, and an exhaust portion, said movable contact having at least one edge movable in said widened portion of the arc chute a plurality of insulating members positioned in the arc chute and having edge portions extending closely adjacent to the path of movementof said edge of the contact movable in the widened portion of the arc chute, a source of gas under pressure connected to cause a blast of gas through the narrow entrance portion of the arc chute, and means preventing transverse movement of the arc in said widened portion of the arc chute and holding the arc in the concentrated blast Iof gas from said narowentrance portion.
  • an arc chute in which an arc may be established, said arc chute having a constricted entrance portion, an exhaust portion and a portion widened laterally of the arc between the constricted entrance portion and the exhaust portion, spaced partition members of insulating material in the arc chute and having notches adjacent the path where the arc is established, means causing gas under pressure to flow into the arc chute thnough the constricted entrance portion and blow the arc toward the closed ends of the notches, said closed ends of the notches lying in said widened portion of the arc chute and restricting lateral movement of the arc in said widened portion so as to hold the arc in the path of the concentrated blast of gas through the constricted entrance portion of the arc chute.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of spaced partitions arranged across said chute, said partitions diverging from the entrance portion toward the exhaust portion of the chute, relatively movable contacts for establishing an arc adjacent the converged ends of said partitions, means supplying a blast of'gas through the entrance portion of the chute for driving the arc against the converged ends of the partitions, and said converged ends of the partitions being of reduced thickness to facilitate ilow of said blast of gas into the exhaust portion of the chute.
  • an arc chute having an entrance portion and an exhaust portion, a plurality of spaced partitions of insulating material arranged across said chute, means for establishing an arc adjacent the edges of said partitions of insulating material nearest the entrance portion of the chute, means supplying a blast of gas through the entrance portion of the chute to move the arc against said edges of said partitions of insulating material, and metal plates positioned between said partitions of insulating material and generally parallel therewith, said metal plates extending adjacentto but being spaced away from the edges of said partitions of insulating material against which the arc is moved by the blast of gas.
  • an arc chute In a gas blast circuit interrupter, an arc chute, a plurality of partitions of insulating material extending across said chute to divide it into a plurality of gas discharge passages, means for establishing an arc across one end of said partitions, means subjecting said arc to a lateral blast of gas, said blast of gas driving the ionized gas from the arc stream into said gas discharge passages, and cooling means disposed in said passages for cooling and deionizing said arc gases, said cooling means including a plurality of metallic members permitting flow of gas thereover and having inclined surfaces deflecting the hot arc gases away from said partitions to retard Athe further formation of gas by the action of the hot arc gases on said partitions.

Landscapes

  • Arc-Extinguishing Devices That Are Switches (AREA)
US313736A 1940-01-13 1940-01-13 Circuit interrupter Expired - Lifetime US2272380A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
NL67950D NL67950C (de) 1940-01-13
BE483217D BE483217A (de) 1940-01-13
US313736A US2272380A (en) 1940-01-13 1940-01-13 Circuit interrupter
GB334/41A GB544152A (en) 1940-01-13 1941-01-09 Improvements in or relating to electric circuit interrupters having arc extinguishing devices
CH218490D CH218490A (fr) 1940-01-13 1941-01-10 Interrupteur électrique.
FR938275D FR938275A (fr) 1940-01-13 1946-07-30 Interrupteurs de circuits

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US313736A US2272380A (en) 1940-01-13 1940-01-13 Circuit interrupter

Publications (1)

Publication Number Publication Date
US2272380A true US2272380A (en) 1942-02-10

Family

ID=23216921

Family Applications (1)

Application Number Title Priority Date Filing Date
US313736A Expired - Lifetime US2272380A (en) 1940-01-13 1940-01-13 Circuit interrupter

Country Status (6)

Country Link
US (1) US2272380A (de)
BE (1) BE483217A (de)
CH (1) CH218490A (de)
FR (1) FR938275A (de)
GB (1) GB544152A (de)
NL (1) NL67950C (de)

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2428482A (en) * 1945-02-28 1947-10-07 Westinghouse Electric Corp Circuit interrupter
US2449518A (en) * 1943-02-15 1948-09-14 Westinghouse Electric Corp Circuit interrupter
US2454121A (en) * 1945-04-03 1948-11-16 Westinghouse Electric Corp Circuit interrupter
US2455998A (en) * 1943-12-20 1948-12-14 Electrical Eng Equipment Co Electrical load breaking device
US2526387A (en) * 1946-01-24 1950-10-17 Milliken Humphreys Air blast circuit breaker
US2535556A (en) * 1946-09-06 1950-12-26 Air Reduction Electric switch
US2585879A (en) * 1949-01-26 1952-02-12 Mcgraw Electric Co Circuit breaker
US2586290A (en) * 1947-11-01 1952-02-19 Westinghouse Electric Corp Circuit interrupter
US2639353A (en) * 1950-01-24 1953-05-19 Allis Chalmers Mfg Co Circuit breaker with arc chute short circuiting sections of the arc
US2671146A (en) * 1952-01-14 1954-03-02 Gen Electric Interrupting unit for electric circuit breakers
US2980781A (en) * 1954-03-16 1961-04-18 Reyrolle A & Co Ltd High voltage electric circuit-breakers of the air-breakers type
US3033961A (en) * 1960-05-04 1962-05-08 Ite Circuit Breaker Ltd Serpentine corrugated arc product coolers
US3179775A (en) * 1960-12-07 1965-04-20 Westinghouse Electric Corp Circulating-type compressed-gas circuit interrupters with composite blast-tube extension
FR2584230A1 (fr) * 1985-06-28 1987-01-02 Merlin Gerin Chambre d'extinction d'arc pour disjoncteur a basse tension a coupure dans l'air

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2449518A (en) * 1943-02-15 1948-09-14 Westinghouse Electric Corp Circuit interrupter
US2455998A (en) * 1943-12-20 1948-12-14 Electrical Eng Equipment Co Electrical load breaking device
US2428482A (en) * 1945-02-28 1947-10-07 Westinghouse Electric Corp Circuit interrupter
US2454121A (en) * 1945-04-03 1948-11-16 Westinghouse Electric Corp Circuit interrupter
US2526387A (en) * 1946-01-24 1950-10-17 Milliken Humphreys Air blast circuit breaker
US2535556A (en) * 1946-09-06 1950-12-26 Air Reduction Electric switch
US2586290A (en) * 1947-11-01 1952-02-19 Westinghouse Electric Corp Circuit interrupter
US2585879A (en) * 1949-01-26 1952-02-12 Mcgraw Electric Co Circuit breaker
US2639353A (en) * 1950-01-24 1953-05-19 Allis Chalmers Mfg Co Circuit breaker with arc chute short circuiting sections of the arc
US2671146A (en) * 1952-01-14 1954-03-02 Gen Electric Interrupting unit for electric circuit breakers
US2980781A (en) * 1954-03-16 1961-04-18 Reyrolle A & Co Ltd High voltage electric circuit-breakers of the air-breakers type
US3033961A (en) * 1960-05-04 1962-05-08 Ite Circuit Breaker Ltd Serpentine corrugated arc product coolers
US3179775A (en) * 1960-12-07 1965-04-20 Westinghouse Electric Corp Circulating-type compressed-gas circuit interrupters with composite blast-tube extension
FR2584230A1 (fr) * 1985-06-28 1987-01-02 Merlin Gerin Chambre d'extinction d'arc pour disjoncteur a basse tension a coupure dans l'air

Also Published As

Publication number Publication date
FR938275A (fr) 1948-09-09
NL67950C (de)
GB544152A (en) 1942-03-30
BE483217A (de)
CH218490A (fr) 1941-12-15

Similar Documents

Publication Publication Date Title
US2272380A (en) Circuit interrupter
US2243038A (en) Circuit interrupter
US1904577A (en) Gas blast circuit interrupter
US2243040A (en) Circuit interrupter
US2284842A (en) Circuit breaking apparatus
US2382850A (en) Gas blast electric circuit breaker
US2293452A (en) Electric air circuit breaker
US2287039A (en) Electric circuit breaker
US1961475A (en) Circuit breaker with liquid or gas blow-outs
US2446027A (en) Arc chute
US2643314A (en) Arc chute
US2708699A (en) Finger contact structure for circuit interrupting device
US2526387A (en) Air blast circuit breaker
US3270173A (en) Gas blast circuit breaker of the axial blast type with means for injecting a high velocity gas jet
US2290708A (en) Gas blast circuit breaker
US2427074A (en) Arc chute
US2604564A (en) Circuit breaker employing high and low intensity gas blast
US2606982A (en) Arc chute defining two alternate arc paths
US2347052A (en) Electric circuit breaker
US2284857A (en) Gas blast electric circuit breaker
US2359127A (en) Circuit interrupter
US2426250A (en) Gas blast circuit breaker
US2604562A (en) Electric circuit interrupter
US2604565A (en) Circuit breaker employing a pair of arc chutes
US2458317A (en) Arc extinguishing means for electric circuit breakers