US2121638A - Electric discharge device - Google Patents

Electric discharge device Download PDF

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US2121638A
US2121638A US169829A US16982937A US2121638A US 2121638 A US2121638 A US 2121638A US 169829 A US169829 A US 169829A US 16982937 A US16982937 A US 16982937A US 2121638 A US2121638 A US 2121638A
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envelope
lamp
leads
heat
electric discharge
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US169829A
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Lemmers Eugene
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General Electric Co
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General Electric Co
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Priority to FR844915D priority patent/FR844915A/en
Priority to GB30246/38A priority patent/GB502603A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J61/00Gas-discharge or vapour-discharge lamps
    • H01J61/02Details
    • H01J61/30Vessels; Containers
    • H01J61/34Double-wall vessels or containers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16KVALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
    • F16K15/00Check valves
    • F16K15/20Check valves specially designed for inflatable bodies, e.g. tyres

Definitions

  • My invention relates to electric discharge lamps generally. More particularly my invention relates to discharge lamps of the type comprising an inner and an outer container or envelope and to structural features of the inner envelope and means for supporting it in the outer container.
  • One of the objects of my invention is to provide a discharge lamp of the type referred to above having a rigid and simplified structure for Supporting the-inner envelope in the outer container. Another object is to provide an inner envelope having rigid leads or prongs sealed to the ends of the envelope through the medium of flexible metallic end members to produce a strong seal and permit supporting of the inner envelope (directly by its said leads or prongs. Another object is to provide a lamp of the above type having its leads so proportioned as to balance or offset the heat loss occasioned by the said metallic end members thereby permitting the lamp, during starting, to warm up to its operating temperature in a reasonably short time. Still another object is to provide a lamp having the inner envelope so shaped as toimpart stability to the arc.
  • FIG. 1 is an elevation, in section, of a discharge lamp comprising my invention
  • Fig. 2 is an elevation at right angles to Fig
  • l of a portion of the inner envelope or lamp proper
  • Figs. 3 and 4 are elevations, partly in section, of modified support structures for one end of the inner envelope
  • Fig. 5' is a plan view of the supporting member shown in Fig. 4
  • Fig. 6 is a plan view. of another modification.
  • the lamp shown therein is adapted to be operated in a base-up position with its longitudinal axis vertically disposed and comprises an outer glass container it sealed at its neck to a pressed glass cup-shaped closure or base member H which has a pair of terminal and mounting prongs or posts l2-i2 extending through openings 93 therein.
  • the prongs [IQ-i2 are of the type disclosed and claimed in application Serial No. 57,196, D. K. Wright, filed January 2, 1936, and have enlarged outer end portions iii, reduced portions i5 and reduced inner end portions it forming shoulders ii.
  • the said prongs l2 are secured to the glass end closure 1 i through the medium of thin flexible metallic cups or flares it which are brazed to the shoulders IT on said prongs I2 and have their edges sunk and fused into the thickness of preferably made of an iron-nickel-cobalt alloy .known as Fernico when the glass closure ii is made of a hard glass such as Pyrex.
  • the lamp proper illustrated in the drawing is of the high intensity type of mercury lamp oper- .ating with a constricted arc discharge and comprises a tubular inner envelope 59, preferably of a hard or high melting point glass such as that manufactured by the Coming Glass Works and known as 172 AJ.
  • the ends of the envelope B9 are preferably sealed by thin flexible metallic cup-shaped closures Zt-Zll like the cups it.
  • the said cup-shaped end. closures 2il2ll may also be made of Fernico, in which case intermediate rings or beads of Pyrex glass 2i-2i are preferably sealed to the edges thereof, the ends of the en-' velope being sealed to said rings Zi-Qi.
  • the outer leads in this instance consist of axially extending prongs 22-32 which are similar to the outer end portions of the terminal prongs 52-i2 and are brazed to the cup-shaped closures 2@--% to form a hermetic seal.
  • the inner leads 222-23 consist of a refractory wire, preferably tungsten, and are secured, preferably by brazing, in bores in the inner ends of the outer leads 22-22.
  • the electrodes 2l-2 i are preferably of the type com-' prising a sintered or welded body of coarse tungsten particles impregnated with an electron emissive material such as barium oxide, as described inapplication Serial No. 148,488, filed June 16, 1937, by the inventor herein and G. M. Carpenter.
  • the ends of the leads 23-23 are embedded in and welded to the said electrodes.
  • the upper prong 22 is held in the coiled end portion 25 of a comparatively heavy and rigid support and current lead-in wire 2%, the opposite end of which is telescoped in a bore in the end of the inner end portion E6 of the right-hand prong i2 and is preferably clamped or welded therein.
  • Another support and current lead-in wire 2? is similarly secured to the left-hand prong i2 and extends longitudinally of the lamp, the lower end thereof being secured, preferably by welding, to the lower prong 22.
  • Additional support may be provided by a well or protuberance 28 at the tip of the outer container it which receives the end of the lower prong 22.
  • the lamp may be provided with an auxiliary electrode 29 (Fig. 2) to facilitate starting, said electrode extending through the upper portion of the envelope I9 adjacent to the upper electrode 24 and being connected through a high resistance encased in a tube 30 of refractory insulating material, and through lead-in 21 to the lower electrode 24.
  • the resistance member 30 is supported by and electrically connected to the lefthand prong l2 by a metal strip 3
  • the inner envelope I9 is evacuated at 32 (Fig. 2) and has a filling of a starting gas, preferably a rare gas such as argon, at a pressure of about 6 to 8 mm. of mercury.
  • the said envelope also contains a controlled quantity of mercury so as to provide a pressure of preferably about two atmospheres during operation, all of the mercury being vaporized during operation of the lamp.
  • the evacuating tip 32 is preferably coated with a heat reflecting material, such as platinum paint.
  • the outer envelope may be evacuated at 33 and may have a filling of nitrogen or air at a pressure of about one atmosphere.
  • the lower end of the envelope i9 is tapered, as shown at 34, being of approximately conical shape to assist in heating the lower end of the lamp.
  • the said end portion 34 has a coating 35 thereon of heat reflecting material, preferably platinum paint.
  • the metallic paint 35 does not make contact with the metallic end closure 20 since this would cause it to act as an anode thereby attracting electrons to the glass wall of the envelope and causing an electrolytic action to take place therein. is preferably shaped in at 35 to raise the temperature sufiiciently to impart stability to the arc.
  • the cup-shaped end closures 20-20 provide a very strong seal while still having a suflicient degree of flexibility to avoid cracking the glass .when strains are applied to the prong leads 22-22.
  • the said closures 20-20 because of their high heat conductivity, make it necessary to properly proportion the inner leads 23-23 and the outer leads 22-22 in order to balance or offset the heat lost by radiation and conduction from the said closures so that, during starting, the ends of the lamp may warm up sufliciently to start in a reasonable length of time.
  • the inner leads 23-23 are therefore made large enough to conduct a sufficient amount of heat from the electrodes to the ends of the. envelope IS.
  • the coating 35 on the lower end of said envelope l9 further assists in this warmingup process.
  • the outer leads 22-22 should not be so large as to conduct the heat away too rapidly. Therefore the comparatively heavy lower lead 22 is preferably undercut or reduced considerably at 38 since the lower end of the lamp tends to run cooler than the upper end.
  • the upper lead 22 is shown as undercut at 31 a small amount although this is not essential.
  • the inner envelope l9 may be 35 mm. in diameter and approximately 120 mm. long with an arc gap of 100 mm. and may be filled with aboutfi to 8 mm. of argon and sufiicient mercury (about .018 cc.) so that the lamp operates at a pressure .of about two atmospheres when all of the mercury is vaporized.
  • the inner leads 23-23 may in this case be made of '70 mil tungsten wire, while the reduced portion 38 of the lower outer lead 22 may be of 50 mil diameter. The proper proportion- The upper end of the envelope permit warming up of the ends of the lamp to an operating temperature.
  • the well 28 of Fig. 1 is omitted and the lower outer lead 22 is held by a disc 39 of suitable material, such as mica, engaging the end wall of the outer container l and secured to said lead 22 by a metal eyelet 4H and a metal washer or ring 4
  • a disc 39 of suitable material such as mica
  • the supporting means of Figs. 4 and is somewhat similar to that of Fig. 3 and consists of a star-shaped member 42 of resilient or springy metal having a tubular flange portion 43 engaging the lead 22 and secured thereto, preferably by welding.
  • the points of the star-shaped member 42 press against the end wall of the outer container Ill and are bent back thereby.
  • the prongs 22-22 of Fig. l are replaced by rigid wire leads I 43-43, the end of the upper lead 43 being secured to the inner portion 16 of one of the terminal prongs l2 and the lower lead 43- terminating in a loop 44 which engages the well 28 at the tip of the outer container H).
  • the said leads 43-43 may be made of steel of, for example, 50 mil diameter.
  • the electrodes 24-24 may be of various types other than that shown, such as a coil of wire coated with electron emissive material.
  • the lamp may also, of course, be readily adapted for operation in a base-down position by reversing the position of the outer container Ill and terminals l2-I2, the inner envelope l9, however, remaining in the position shown.
  • An electric discharge lamp comprising an outer container and an inner envelope, said inner envelope being closed at its ends by thin metallic closure members sealed at their edges directly to the ends of said envelope, inner leads extending. inwardly of said envolpe from said end closure members and having electrodes secured thereto, rigid outer leads extending outward from said end closure members and means in said outer container for supporting said inner envelope directly from said outer leads, said inner leads being of sufliciently large size to transfer enough heat to the ends of said inner envelope to balance the heat lost by radiation from said metallic end closures and thereby permit the lamp to heat up, during starting, to its operating temperature.
  • An electric discharge lamp comprising an elongated outer container having a pair of rigid terminal prongs extending through one end thereof, an elongated inner envelope closed at its ends by thin metallic closure members sealed at their edges directly to the ends of said envelope,
  • a pair of rigid conductive supports each extending from one of said terminal members to one of said outer leads to support said inner envelope, the outer lead at the opposite end of said container from the terminal prongs being additionally supported from the walls of said container.
  • An electric discharge lamp comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads within the envelope beingof sufficiently large size to transfer enough heat to the ends of said envelope to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to its operating temperature.
  • An electric discharge lamp adapted to be operated with its longitudinal axis vertically disposed and comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads within the envelope being of suificiently large size to transfer enough heat to the ends of said envelope to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to-its operating temperature, and the lower end of said envelope having a coating of heat reflecting material thereon to further conserve the heat thereat.
  • An electric discharge lamp adapted to be operated with its longitudinal axis vertically disposed and comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads -within the envelope being of sufliciently large size and the portions of said leads adjacent the outer sides of said end closure members being of sufiiciently small size to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to its operating temperature.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Vessels And Coating Films For Discharge Lamps (AREA)

Description

.June 21, 1938. E. LEMMERS ELECTRIC DISCHARGE DEVICE Filed 001:. 19', 1937 Inventor" s) a mm e P Um t e aA w .m #2 E Y b Patented June 21, 1938 ELECTREQ DISCHAREE BEVEDE Eugene Lemmers, (Jleweland, (thin, assignor to General Electric Company, a corporation of New York Application (hotelier 19, 1937, Serial No. 169,829
5 Slaims.
My invention relates to electric discharge lamps generally. More particularly my invention relates to discharge lamps of the type comprising an inner and an outer container or envelope and to structural features of the inner envelope and means for supporting it in the outer container.
One of the objects of my invention is to provide a discharge lamp of the type referred to above having a rigid and simplified structure for Supporting the-inner envelope in the outer container. Another object is to provide an inner envelope having rigid leads or prongs sealed to the ends of the envelope through the medium of flexible metallic end members to produce a strong seal and permit supporting of the inner envelope (directly by its said leads or prongs. Another object is to provide a lamp of the above type having its leads so proportioned as to balance or offset the heat loss occasioned by the said metallic end members thereby permitting the lamp, during starting, to warm up to its operating temperature in a reasonably short time. Still another object is to provide a lamp having the inner envelope so shaped as toimpart stability to the arc.
Further objects and advantages of my invention will appear from the following description of species thereof and from the drawing in which Fig. 1 is an elevation, in section, of a discharge lamp comprising my invention; Fig. 2 is an elevation at right angles to Fig; l, of a portion of the inner envelope or lamp proper; Figs. 3 and 4 are elevations, partly in section, of modified support structures for one end of the inner envelope; Fig. 5' is a plan view of the supporting member shown in Fig. 4; and Fig. 6 is a plan view. of another modification.
Referring to Figs. 1 and 2, the lamp shown therein is adapted to be operated in a base-up position with its longitudinal axis vertically disposed and comprises an outer glass container it sealed at its neck to a pressed glass cup-shaped closure or base member H which has a pair of terminal and mounting prongs or posts l2-i2 extending through openings 93 therein. The prongs [IQ-i2 are of the type disclosed and claimed in application Serial No. 57,196, D. K. Wright, filed January 2, 1936, and have enlarged outer end portions iii, reduced portions i5 and reduced inner end portions it forming shoulders ii. The said prongs l2 are secured to the glass end closure 1 i through the medium of thin flexible metallic cups or flares it which are brazed to the shoulders IT on said prongs I2 and have their edges sunk and fused into the thickness of preferably made of an iron-nickel-cobalt alloy .known as Fernico when the glass closure ii is made of a hard glass such as Pyrex.
The lamp proper illustrated in the drawing is of the high intensity type of mercury lamp oper- .ating with a constricted arc discharge and comprises a tubular inner envelope 59, preferably of a hard or high melting point glass such as that manufactured by the Coming Glass Works and known as 172 AJ. The ends of the envelope B9 are preferably sealed by thin flexible metallic cup-shaped closures Zt-Zll like the cups it. The said cup-shaped end. closures 2il2ll may also be made of Fernico, in which case intermediate rings or beads of Pyrex glass 2i-2i are preferably sealed to the edges thereof, the ends of the en-' velope being sealed to said rings Zi-Qi. The outer leads in this instance consist of axially extending prongs 22-32 which are similar to the outer end portions of the terminal prongs 52-i2 and are brazed to the cup-shaped closures 2@--% to form a hermetic seal. The inner leads 222-23 consist of a refractory wire, preferably tungsten, and are secured, preferably by brazing, in bores in the inner ends of the outer leads 22-22. The electrodes 2l-2 i are preferably of the type com-' prising a sintered or welded body of coarse tungsten particles impregnated with an electron emissive material such as barium oxide, as described inapplication Serial No. 148,488, filed June 16, 1937, by the inventor herein and G. M. Carpenter. The ends of the leads 23-23 are embedded in and welded to the said electrodes.
The upper prong 22 is held in the coiled end portion 25 of a comparatively heavy and rigid support and current lead-in wire 2%, the opposite end of which is telescoped in a bore in the end of the inner end portion E6 of the right-hand prong i2 and is preferably clamped or welded therein. Another support and current lead-in wire 2? is similarly secured to the left-hand prong i2 and extends longitudinally of the lamp, the lower end thereof being secured, preferably by welding, to the lower prong 22. Additional support may be provided by a well or protuberance 28 at the tip of the outer container it which receives the end of the lower prong 22.
The lamp may be provided with an auxiliary electrode 29 (Fig. 2) to facilitate starting, said electrode extending through the upper portion of the envelope I9 adjacent to the upper electrode 24 and being connected through a high resistance encased in a tube 30 of refractory insulating material, and through lead-in 21 to the lower electrode 24. The resistance member 30 is supported by and electrically connected to the lefthand prong l2 by a metal strip 3| embedded in the casing and welded to the inner end portion l6 of the said prong l2 (Fig. l).
The inner envelope I9 is evacuated at 32 (Fig. 2) and has a filling of a starting gas, preferably a rare gas such as argon, at a pressure of about 6 to 8 mm. of mercury. The said envelope also contains a controlled quantity of mercury so as to provide a pressure of preferably about two atmospheres during operation, all of the mercury being vaporized during operation of the lamp. The evacuating tip 32 is preferably coated with a heat reflecting material, such as platinum paint.
The outer envelope may be evacuated at 33 and may have a filling of nitrogen or air at a pressure of about one atmosphere.
The lower end of the envelope i9 is tapered, as shown at 34, being of approximately conical shape to assist in heating the lower end of the lamp. To further assist in heating the said lower end of the lamp, the said end portion 34 has a coating 35 thereon of heat reflecting material, preferably platinum paint. However, care should be taken that the metallic paint 35 does not make contact with the metallic end closure 20 since this would cause it to act as an anode thereby attracting electrons to the glass wall of the envelope and causing an electrolytic action to take place therein. is preferably shaped in at 35 to raise the temperature sufiiciently to impart stability to the arc.
The cup-shaped end closures 20-20 provide a very strong seal while still having a suflicient degree of flexibility to avoid cracking the glass .when strains are applied to the prong leads 22-22. However, the said closures 20-20 because of their high heat conductivity, make it necessary to properly proportion the inner leads 23-23 and the outer leads 22-22 in order to balance or offset the heat lost by radiation and conduction from the said closures so that, during starting, the ends of the lamp may warm up sufliciently to start in a reasonable length of time. The inner leads 23-23 are therefore made large enough to conduct a sufficient amount of heat from the electrodes to the ends of the. envelope IS. The coating 35 on the lower end of said envelope l9 further assists in this warmingup process. Moreover, the outer leads 22-22 should not be so large as to conduct the heat away too rapidly. Therefore the comparatively heavy lower lead 22 is preferably undercut or reduced considerably at 38 since the lower end of the lamp tends to run cooler than the upper end. The upper lead 22 is shown as undercut at 31 a small amount although this is not essential.
As a specific illustration, for a 400 watt high intensity mercury lamp, the inner envelope l9 may be 35 mm. in diameter and approximately 120 mm. long with an arc gap of 100 mm. and may be filled with aboutfi to 8 mm. of argon and sufiicient mercury (about .018 cc.) so that the lamp operates at a pressure .of about two atmospheres when all of the mercury is vaporized. To balance the heat loss occasioned by the metallic cups 20-20, the inner leads 23-23 may in this case be made of '70 mil tungsten wire, while the reduced portion 38 of the lower outer lead 22 may be of 50 mil diameter. The proper proportion- The upper end of the envelope permit warming up of the ends of the lamp to an operating temperature.
In the modification shown in Fig. 3, the well 28 of Fig. 1 is omitted and the lower outer lead 22 is held by a disc 39 of suitable material, such as mica, engaging the end wall of the outer container l and secured to said lead 22 by a metal eyelet 4H and a metal washer or ring 4| located on opposite sides of said disc 39 and secured thereto preferably by indenting or perforating the said eyelet and washer.
The supporting means of Figs. 4 and is somewhat similar to that of Fig. 3 and consists of a star-shaped member 42 of resilient or springy metal having a tubular flange portion 43 engaging the lead 22 and secured thereto, preferably by welding. The points of the star-shaped member 42 press against the end wall of the outer container Ill and are bent back thereby.
In the modifications shown in Fig. 6, the prongs 22-22 of Fig. l, are replaced by rigid wire leads I 43-43, the end of the upper lead 43 being secured to the inner portion 16 of one of the terminal prongs l2 and the lower lead 43- terminating in a loop 44 which engages the well 28 at the tip of the outer container H). For the 400 watt lamp described above, the said leads 43-43 may be made of steel of, for example, 50 mil diameter.
The constructions described above provide a lamp which is -mechanically strong and simple in construction due to the mounting of the inner envelope directly from its leads without the usual spring members for engaging the bulb wall.
Although I have describedspecifically certain species of my invention, it will be obvious that various changes may be made therein without departing from the scope of my invention. For example, the electrodes 24-24 may be of various types other than that shown, such as a coil of wire coated with electron emissive material. The lamp may also, of course, be readily adapted for operation in a base-down position by reversing the position of the outer container Ill and terminals l2-I2, the inner envelope l9, however, remaining in the position shown.
What I claim as new and desire to secure by- Letters Patent of the United States is:
1. An electric discharge lamp comprising an outer container and an inner envelope, said inner envelope being closed at its ends by thin metallic closure members sealed at their edges directly to the ends of said envelope, inner leads extending. inwardly of said envolpe from said end closure members and having electrodes secured thereto, rigid outer leads extending outward from said end closure members and means in said outer container for supporting said inner envelope directly from said outer leads, said inner leads being of sufliciently large size to transfer enough heat to the ends of said inner envelope to balance the heat lost by radiation from said metallic end closures and thereby permit the lamp to heat up, during starting, to its operating temperature.
2. An electric discharge lamp comprising an elongated outer container having a pair of rigid terminal prongs extending through one end thereof, an elongated inner envelope closed at its ends by thin metallic closure members sealed at their edges directly to the ends of said envelope,
outward from said end closure members, a pair of rigid conductive supports each extending from one of said terminal members to one of said outer leads to support said inner envelope, the outer lead at the opposite end of said container from the terminal prongs being additionally supported from the walls of said container.
3. An electric discharge lamp comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads within the envelope beingof sufficiently large size to transfer enough heat to the ends of said envelope to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to its operating temperature.
4. An electric discharge lamp adapted to be operated with its longitudinal axis vertically disposed and comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads within the envelope being of suificiently large size to transfer enough heat to the ends of said envelope to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to-its operating temperature, and the lower end of said envelope having a coating of heat reflecting material thereon to further conserve the heat thereat.
5. An electric discharge lamp adapted to be operated with its longitudinal axis vertically disposed and comprising a tubular envelope having inwardly tapering ends closed by thin metallic closure members having their edges sealed directly to the ends of said envelope, and leads extending through said end closure members axially of said envelope and carrying electrodes at their inner ends, the portions of said leads -within the envelope being of sufliciently large size and the portions of said leads adjacent the outer sides of said end closure members being of sufiiciently small size to balance the heat lost by radiation from said metallic end closure members and thereby permit the lamp to heat up, during starting, to its operating temperature.
EUGENE
US169829A 1937-10-19 1937-10-19 Electric discharge device Expired - Lifetime US2121638A (en)

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Application Number Priority Date Filing Date Title
BE502603D BE502603A (en) 1937-10-19
US169829A US2121638A (en) 1937-10-19 1937-10-19 Electric discharge device
FR844915D FR844915A (en) 1937-10-19 1938-10-19 Improvements in the construction of discharge lamps
GB30246/38A GB502603A (en) 1937-10-19 1938-10-19 Improvements in and relating to electric discharge lamps

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2749461A (en) * 1953-04-30 1956-06-05 Westinghouse Electric Corp Lamp unit and inner member support
US4181869A (en) * 1978-03-06 1980-01-01 Gte Sylvania Incorporated Tungsten halogen lamp in reflector envelope
US20090224674A1 (en) * 2008-03-06 2009-09-10 General Electric Company, A New York Corporation Ceramic high intensity discharge lamp having uniquely shaped shoulder
US20200299952A1 (en) * 2019-03-20 2020-09-24 Otto Fuchs Kommanditgesellschaft Profile Bond

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
HU191305B (en) * 1984-03-29 1987-02-27 Tungsram Rt,Hu High pressure sodium or metal halogen lamp for dc operation
DE202006005158U1 (en) * 2006-03-30 2006-06-14 Patent-Treuhand-Gesellschaft für elektrische Glühlampen mbH High pressure discharge lamp

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2749461A (en) * 1953-04-30 1956-06-05 Westinghouse Electric Corp Lamp unit and inner member support
US4181869A (en) * 1978-03-06 1980-01-01 Gte Sylvania Incorporated Tungsten halogen lamp in reflector envelope
US20090224674A1 (en) * 2008-03-06 2009-09-10 General Electric Company, A New York Corporation Ceramic high intensity discharge lamp having uniquely shaped shoulder
US8035304B2 (en) * 2008-03-06 2011-10-11 General Electric Company Ceramic high intensity discharge lamp having uniquely shaped shoulder
US20200299952A1 (en) * 2019-03-20 2020-09-24 Otto Fuchs Kommanditgesellschaft Profile Bond
CN111720392A (en) * 2019-03-20 2020-09-29 奥托福克斯两合公司 Section bar assembly
US11624183B2 (en) * 2019-03-20 2023-04-11 Otto Fuchs Kommanditgesellschaft Profile bond
CN111720392B (en) * 2019-03-20 2023-11-07 奥托福克斯两合公司 Profile assembly

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FR844915A (en) 1939-08-04
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