US3737717A - High intensity lamp containing thermal shorting fuse - Google Patents

High intensity lamp containing thermal shorting fuse Download PDF

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Publication number
US3737717A
US3737717A US00234036A US3737717DA US3737717A US 3737717 A US3737717 A US 3737717A US 00234036 A US00234036 A US 00234036A US 3737717D A US3737717D A US 3737717DA US 3737717 A US3737717 A US 3737717A
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Prior art keywords
lamp
inlead
bimetal
gap
conductor
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US00234036A
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English (en)
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M Arendash
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General Electric Co
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General Electric Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J61/00Gas-discharge or vapour-discharge lamps
    • H01J61/02Details
    • H01J61/56One or more circuit elements structurally associated with the lamp

Definitions

  • ABSTRACT A high intensity lamp comprising an arc tube containing metal vapor such as sodium and mercury mounted within an evacuated outer jacket.
  • a self-shorting arcing fuse is provided to forestall a destructive power arc should there occur a leak of air into the jacket or should the arc tube fail resulting in a low pressure of gas in the jacket.
  • the fuse comprises a thermally deformable bimetal strip located to define the closest spatial approach between opposite current conductors within the jacket. A spot of brazing metal on the bimetal assists in welding the parts together at closure.
  • the invention relates to high intensity vapor arc lamps comprising an inner envelope mounted within a vacuum outer envelope and is particularly useful with high intensity sodium vapor lamps of the kind described in US. Pat. No. 3,248,590 Schmidt, entitled High Pressure Sodium Vapor Lamp.
  • an elongated inner envelope of ceramic materials uch as a high density polycrystalline alumina tube contains a filling comprising an amalgam of sodium and mercury and a rare gas to facilitate starting.
  • Each end of the alumina tube is sealed by a refractory closure member, suitably a niobium end cap which serves as an electrical inlead and supports an electrode internally.
  • the ceramic arc tube is supported within an outer vitreous envelope or jacket having at one end a screw base providing terminals to which the end caps of the arc tube are connected.
  • the jacket is evacuated in order to conserve heat and maintain the cold spot or lowest temperature portion of the arc tube at a sufficiently high temperature.
  • the high pressure sodium vapor lamp has a relatively high starting voltage due in part to the small diameter of the arc tube and the use of xenon as a starting gas. Also the metal end cap used for the arc tube closures does not lend itself conveniently to the incorporation of an auxiliary starting electrode.
  • a ballast circuit is generally used which supplies a high voltage pulse, customarily near the peak of the open circuit waveform, until the lamp ignites.
  • the pulsing circuit is disabled by the reduction in voltage at the lamp terminals from the open circuit value to the lamp running value, and the pulse is discontinued until the next time the lamp is started.
  • the ballast continues to supply high voltage pulses until power is disconnected or the lamp is replaced.
  • the lamp socket and the fixture wiring must have insulation capable of withstanding the high voltage pulses from the ballast over extended periods of time.
  • the breakdown voltage across the stem leads within the jacket will drop to a few hundred volts.
  • the ballast open circuit voltage (480 volts in a 1,000 watt lamp) or the high voltage pulses supplied by the ballast circuit will insure ignition of a discharge which will become a destructive power arc as the bulb airs up further.
  • the second situation is that wherein the arc tube suddenly fails as when an end cap seal develops a leak. The release of sodium and mercury vapor and the arc tube starting gas into the jacket may cause an arc to start between the metal parts about the stem.
  • a selfshorting arcing fuse is provided within the jacket to extinguish any arc occurring and safely end the life of the lamp.
  • the fuse structure comprises metal conductors defining an arc gap at the closest spatial approach be tween opposite current conductors within the jacket, such that under the heat of the power are the metal conductors will deform and bridge over or short circuit the gap.
  • a metallic loop portion of one conductor encircles a portion of the oppo site conductor in close proximity, the loop is of nickel that will soften and flow without excessive oxidation, so that upon fusing together with the opposite conductor, a direct short is formed which extinguishes the arc.
  • I provide an improved self-shorting arcing fuse which comprises a thermally deformable bimetal strip defining part of the arc gap.
  • the arc gap is located at the closest spatial approach between opposite current conductors within the jacket.
  • FIG. 1 is a front view of a high pressure sodium vapor lamp comprising a bimetal shorting fuse embodying the invention.
  • FIG. 2 is a fragmentary view of the neck end of the lamp turned relative to the view of FIG. 1 and showing the fuse.
  • FIG. 3 is a sectional view through the lamp taken at plane 33 looking towards the base end in the direction indicated by the arrows, and showing the fuse arced over and welded closed.
  • a high pressure sodium vapor lamp 1 comprising an outer tubular vitreous envelope or jacket 2.
  • the jacket is make of a high temperature glass such as borosilicate glass andv is relatively thick-walled in order to withstand atmospheric pressure.
  • the neck 3 of the jacket is closed by a re-entrant stem 4 terminated in a press 5 through which extend heavy inleads or current conductors 6, 7 which are connected respectively to the threaded shell 8 and insulated center contact 9 of a conventional screw base.
  • the base is mechanically retained on the neck of the jacket by screwing shell 8 over threaded retaining ring 10 which has inwardly turned notches 11 which engage corresponding dimples in the glass of the neck.
  • the inner envelope or are tube 15 is made of sintered high density polycrystalline alumina ceramic per U.S. Pat. No. 3,026,210 Coble, Transparent Alumina and Method of Preparation, or of other lighttransmitting ceramic capable of attack the attach of sodium vapor at high temperatures.
  • the tube is closed by thimble-like niobium metal end caps 16, 17 having skirt portions which fit around the ends of the tube.
  • the end caps are sealed to the alumina by means of a sealing composition comprising a major proportion of aluminum oxide and calcium oxide and a minor proportion of magnesium oxide.
  • Thermionic electrodes are mounted in the ends of the arc tube and supported from the end caps.
  • Lower electrode 19 is shown in the drawing and comprises a tungsten wire coil or helix 20 wound around a tungstem shank or core 21 fastened in the end of a niobium tube 22 welded through the end cap.
  • the electrodes are activated by metal oxides retained in the interstices between turns of the coil, a preferred material being dibarium calcium tungstate Ba CaWo as described and claimed in cop'ending application Ser. No. 97,907 filed Dec. 14, 1970 by William E. Smyser et al., entitled Discharge Lamp Thermionic Cathode Containing Emission Material," and assigned to the same assignee as this invention.
  • Lower niobium tube 22 has an opening into the ceramic arc tube which serves as an exhaust port during manufacture.
  • the ionizable filling consisting of an inert gas, preferably xenon at a cold filling pressure of about 20 torr, and a sodium-mercury amalgam is introduced through exhaust tube 22 which is then hermetically pinched off by a cold weld indicated at 24.
  • Upper niobium tube 23 has no opening into the arc tube and may be used to contain a small quantity of yttrium metal serving as a getter.
  • lower tube 22 is the coolest portion of the arc tube and serves as a reservoir for excess sodium-mercury amalgam.
  • the illustrated lamp is intended for base-up operation; in a base-down version of the same lamp, the arc tube is reversed relative to the outer jacket and longer exhaust tube 22 is located at the base end so that it is again lowermost in operation.
  • the are tube is supported within the jacket by a mount comprising a side rod 26 made of two wires spot-welded together for greater stiffness, welded to inlead 6 close by the press and extending the length of the envelope.
  • Leaf spring members 27 at the stem end and 28, 29 at the dome end bear against the tubular jacketto maintain rod 26 in place.
  • Alumina ceramic has a substantial coefficient of expansion and the range of temperature traversed by the arc tube exceeds 1,000C. To allow for expansion, only the lower exhaust tube 22 is completely restrained, being welded between straps 31 bridged across laterally extending portion 32 of the side rod.
  • the upper tube 23 extends freely through an encircling opening formed between straps 33 extending from side rod 26 to short support rod 34 which is welded to inlead 7 and braced by leaf spring 35. Ceramic sleeve 36 electrically insulates straps 33 from side rod 26.
  • the electrical connection to end cap 16 of the arc tube is provided by flexible strap 37 welded thereto.
  • the space within outer jacket 2 is evacuated to a high vacuum in order to reduce heat loss from the arc tube. Air is pumped out through exhaust tube 38 prior to tip-off and a suitable getter such as barium may then be flashed within the jacket to assure a high vacuum.
  • I provide a selfshorting arcing fuse within the jacket and close by the stem where the inleads 6, 7 emerge into the jacket or interenvelope space.
  • a short length of bimetal strip 41 is fastened to inlead 6 close below press 5 in such fashion that it extends towards inlead 7.
  • bimetal strip 41 may be 0.010 inch thick, 0.125 inch wide and 0.75 inch long.
  • the high expansion side of the bimetal strip may consist of an alloy of 25% Ni, 8.5% Cr and the balance Fe; the low expansion side, of an alloy of 50% Ni and the balance Fe; the two sides are equal in thickness.
  • bimetal strip 41 In operation of the lamp, heat radiated by the arc tube and conducted by side rod 26 heats up bimetal strip 41 and causes it to bend and reduce the arc gap, but this initial deflection is insufficient to close the gap. However should an air leak occur or should a defective arc tube seal release metal vapor into the outer envelope, a glow, and ultimately an arc, develops in the gap and the bimetal is strongly heated. The bimetal flexes sharply and forcefully closes the gap whereupon its free end fuses or welds to inlead 7 and the lamp is permanently short circuited, as shown in FIG. 3. To assist in welding the fuse closed, a small piece or tab of brazing metal may be attached to the bimetal strip.
  • a short piece of nickel wire 42 is welded at the end of bimetal strip 41 to lie transverse to inlead 7 as shown.
  • Nickel piece 42 is softened by the arc and serves as brazing matrial to form a fillet which securely attaches strip 41 to inlead 7 in the event of closure, assuring that the fuse members will not break apart upon cooling.
  • Other suitable brazing materials which may be used for tab 42 are copper, nickel-copper alloys, nickel-iron-chrome alloys, and stainless steel alloys.
  • a second self-shorting arcing fuse may be provided in the base of the lamp in order to extinguish any arc which might form therein.
  • This outer arcing fuse may be similar to that described and claimed in U.S. Pat. No. 2,950,417 Breeding et al., Series Electric Lamp, Aug. 1960, and is located within the stem tube of the jacket and enclosed within base shell 8 so that it is in outside air.
  • inleads 6, 7 have solid wire inner portions of nickel within the outer jacket, tungsten portions where they pass through the press 5, and external portions 6a, 7a of flexible stranded nickel-plated copper wire wrapped around a solid nickel core wire. Lead tions 6a, 7a to each other.
  • Glass sleeve 43 is made of 10 high lead content glass which becomes relatively conductive when heated. Upon being touched by the arc, sleeve 43 will melt and permit a conductive juncture to be formed between wires 6a, 7a which will short circuit the arc. v
  • a vacuum jacketed high intensity vapor arc lamp comprising:
  • said inner envelope requiring a starting voltage high enough to start an arc discharge in said outer envelope should the vacuum therein be destroyed;
  • a short-circuiting arcing fuse in said outer envelope comprising a bimetal conductor connected to one inlead and defining a gap at its closest spatial approach to an opposite current conductor connected to the other inlead so that any arc forming in said outer envelope will occur at said gap; said bimetal conductor being disposed to flex and close said gap upon being heated by a discharge.
  • said bimetal conductor is attached to one of said inleads close to said press;
  • said bimetal conductor is spaced close to said other inlead at the operating temperature of said lamp to define said gap and flexes to engage said other inlead when heated by an arc occurring in said gap.
  • said bimetal conductor is attached to one of said inleads close to the press;
  • the free end of said bimetal conductor is spaced close to said other inlead at the operating tempeature of said lamp to define said gap, and flexes to engage said other inlead when heated by a discharge occurring about said gap;
  • brazing metal is provided at the free end of said bimetal conductor for fusing to said other inlead upon engagement thereof by said bimetal at occurrence of arcing in said gap.
  • brazing metal is selected from the group consisting of nickel, copper, nickel-copper alloys, nickel-iron-chrome alloys and stainless steel alloys.
  • brazing metal is a short length of nickel wire welded on said bimetal conductor and lying thereon in an orientation to en-
US00234036A 1972-03-13 1972-03-13 High intensity lamp containing thermal shorting fuse Expired - Lifetime US3737717A (en)

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US23403672A 1972-03-13 1972-03-13

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US (1) US3737717A (en?inventor=+michael+arendash&oq=+michael+arendash)
CA (1) CA962317A (en?inventor=+michael+arendash&oq=+michael+arendash)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3996487A (en) * 1975-05-14 1976-12-07 Westinghouse Electric Corporation Ceramic discharge lamp with reduced heat drain
US4156830A (en) * 1975-05-13 1979-05-29 Duro-Test Corp. High intensity discharge lamp with integral means for arc extinguishing
US4415836A (en) * 1981-10-01 1983-11-15 Gte Products Corporation Lamp with improved fuse wire
US5325017A (en) * 1992-03-27 1994-06-28 U.S. Philips Corporation High-pressure discharge lamp having solid state getter mounted on bimetallic element
US6037854A (en) * 1998-05-01 2000-03-14 Aerospace Lighting Corporation Thermal fuse for fluorescent lamps
WO2004107390A1 (en) * 2003-05-21 2004-12-09 Koninklijke Philips Electronics N.V. High-pressure discharge lamp
US20080127494A1 (en) * 2002-05-03 2008-06-05 Alfa Laval Corporate Ab Method of brazing thin heat exchanging plates and brazed plate heat exchanger produced according to the method

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US466400A (en) * 1892-01-05 Thomas a
US2950417A (en) * 1958-08-08 1960-08-23 Gen Electric Series electric lamp
US3222556A (en) * 1962-04-17 1965-12-07 Sylvania Electric Prod Electric discharge device

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US466400A (en) * 1892-01-05 Thomas a
US2950417A (en) * 1958-08-08 1960-08-23 Gen Electric Series electric lamp
US3222556A (en) * 1962-04-17 1965-12-07 Sylvania Electric Prod Electric discharge device

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4156830A (en) * 1975-05-13 1979-05-29 Duro-Test Corp. High intensity discharge lamp with integral means for arc extinguishing
US3996487A (en) * 1975-05-14 1976-12-07 Westinghouse Electric Corporation Ceramic discharge lamp with reduced heat drain
US4415836A (en) * 1981-10-01 1983-11-15 Gte Products Corporation Lamp with improved fuse wire
US5325017A (en) * 1992-03-27 1994-06-28 U.S. Philips Corporation High-pressure discharge lamp having solid state getter mounted on bimetallic element
US6037854A (en) * 1998-05-01 2000-03-14 Aerospace Lighting Corporation Thermal fuse for fluorescent lamps
US20080127494A1 (en) * 2002-05-03 2008-06-05 Alfa Laval Corporate Ab Method of brazing thin heat exchanging plates and brazed plate heat exchanger produced according to the method
US8776371B2 (en) * 2002-05-03 2014-07-15 Alfa Laval Corporate Ab Method of brazing thin heat exchanging plates and brazed plate heat exchanger produced according to the method
WO2004107390A1 (en) * 2003-05-21 2004-12-09 Koninklijke Philips Electronics N.V. High-pressure discharge lamp
US20060279193A1 (en) * 2003-05-21 2006-12-14 Marien Leo Gustaaf J E High-pressure discharge lamp

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CA962317A (en) 1975-02-04

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