US2774013A - Electric discharge lamp - Google Patents

Electric discharge lamp Download PDF

Info

Publication number
US2774013A
US2774013A US151440A US15144050A US2774013A US 2774013 A US2774013 A US 2774013A US 151440 A US151440 A US 151440A US 15144050 A US15144050 A US 15144050A US 2774013 A US2774013 A US 2774013A
Authority
US
United States
Prior art keywords
envelope
lamp
discharge
dumb
bell
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
US151440A
Inventor
Anthony H Willoughby
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.)
General Electric Co
Original Assignee
General Electric 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
Application filed by General Electric Co filed Critical General Electric Co
Application granted granted Critical
Publication of US2774013A publication Critical patent/US2774013A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J61/00Gas-discharge or vapour-discharge lamps
    • H01J61/84Lamps with discharge constricted by high pressure
    • H01J61/90Lamps suitable only for intermittent operation, e.g. flash lamp

Definitions

  • This invention relates to electric discharge lamps for producing intense flashes of light of very short duration.
  • Such lamps usually have a filling comprising one or more permanent gases, and the filling may also include additives, for example metals placed in the discharge path or other gases or vapors, for modifying the spectrum of the light emitted.
  • the flash is usually produced by connecting across the electrodes of the lamp a condenser charged to a high voltage, so that the flash is produced as a discharge of the condenser through the lamp; usually the condenser voltage is arranged to be somewhat less than the striking voltage of the lamp and the discharge is triggered off by the application of a suitable voltage to an auxiliary electrode associated with the lamp.
  • the second factor also arises from the intense heat produced by the discharge which causes rapid thermal expansion of the gas filling of the lamp in the neighborhood of the discharge, setting up a pressure wave in the filling which administers a violent shock to the envelope and may fracture it if the rate of heating produced by the discharge is too great.
  • the length of the discharge path in a lamp of the kind referred to should be small, e. g. a few centimeters, so that the lamp may cooperate efiiciently with optical projection apparatus, but it is to be noted that for a given energy dissipation per flash the disadvantageous effects of the two factors aforementioned increase as the length of the discharge path decreases, since the heat produced by the discharge is more localized and the heating efiect thereby intensified.
  • the object of this invention is to provide a novel form of lamp of the kind referred to with which a very high energy dissipation per flash can be achieved and which can be arranged to have a very short arc length so as to render it very suitable for use with optical projection apparatus.
  • an electric discharge lamp for producing intense flashes of light of very short duration has a quartz envelope substantially of dumb-bell shape, containing a filling consisting wholly or mainly of one or more permanent gases, the axial length of the bar of the dumb-bell being greater than the mean internal diameter of the bar and the internal volume of each bulbous end of the dumb-bell being con siderably greater than the internal volume of the bar, and each bulbous end of the dumb-bell contains an elec-- trode, with a lead thereto sealed through that end, the discharge termination surface of which electrode lies adjacent to the corresponding end of the bar of the dumbbell.
  • the bar of the dumb-bell is thus arranged to contain and constrict the discharge while the bulbous ends provide expansion chambers into which the gas filling heated by the discharge can expand for reducing the shock to the envelope.
  • the envelope being of quartz, is highly refractory for resisting the heating produced by the discharge and is strong mechanically for withstanding the pressure-wave shock.
  • the bulbous ends of the dumb-bell are both of approximately spherical shape, though other shapes, such as substantially cylindrical, may sometimes be used.
  • the electrodes may conveniently consist of metal rods,
  • tungsten or molybdenum preferably of tungsten or molybdenum, and leads to them' may be brought out through the bulbous ends by the well-known quartz seal techniques.
  • the pressure of the permanent gas filling may vary according to the length of the discharge path, i. e., the length of the bar of the dumb-bell, but for efiicient operation the pressure is preferably never less than 400 mms. of mercury, and with very short discharge path lengths,
  • the filling may consist mainly of permanent gas is used to imply the possible presence of one or more additives, as af0remen-' tioned, for modifying the spectrum of the light emitted.
  • the permanent gas used is preferably krypton or a mixture of krypton and xenon.
  • a lamp in accordance with the invention may be fitted with an auxiliary electrode, which may conveniently take the form of a length of wire outside the envelope, attached at each end to the envelope and closely following the outer contour of the envelope along the direction of the axis of the lamp.
  • a lamp in accordance with the invention designed with dimensions within the following limits is very suitable for use as a small light source in optical projection apparatus:
  • Length of bar of dumb-bell less than 2 cms.
  • Mean internal diameter of bar less than 1 cm.
  • Length of discharge path between electrodes not more than 2 cms.
  • Mean internal diameter of bulbous ends (approximately spherical), not less than 2 cms.
  • Pressure of permanent gas filling not less than 500 mm.
  • the lamp has a quartz envelope 1 of dumb-bell shape with walls about 3 mm. thick; the bar 2 of the dumbbell is of about 15 mm. axial length and 4 mm. in internal diameter.
  • Each of the bulbous end portions 3 is approximately spherical and 30 mm. in internal diameter and each at the side diametrically opposite and projecting away from the bar of the dumb-bell is continued by a quartz extension tube 4 in which is set, and which is collapsed onto, a stout cylindrical tungsten rod electrode 5 (wrapped in molybdenum foil where the quartz is collapsed onto it) of 3 mm. diameter, which rod projects diametrically for 28 mm. within the envelope so that its end face 6, which is plane, lies adjacent to the corresponding end of the bar 2 of the dumb-bell and so that there 3 is a gap of 19mm. between the opposed ends 66 of the rods 5-5.
  • the quartz side-stems 4 in which the rods 5 are set are continued by molybdenum foil strip-seals of known.
  • the rod electrodes- 5 being connected to the foils at one end of the seals and metal connecting clamps (not shown) being fixed around the exposed parts of the foil 7 at the other end of the seals.
  • a starting electrode consisting of a length of bent wire 8 following closely the outer contour of the dumb-bell envelope 1 is attached at each end to one of the quartz side-stems 4.
  • the envelope 1 of the lamp is filled with krypton or a krypton-xenon mixture at a pressure of 700 mm. of mercury.
  • a condenser 9 is connected across the electrodes 5-5 of the lamp and is charged to a highvoltage from a suitable source.
  • the condenser voltage is ordinarily somewhat less than the striking or ignition voltage of the lamp and the discharge is triggered by the application of a suitable voltage from a transformer 10 to the auxiliary electrode 8.
  • a gaseous electric discharge lamp for producing intense flashes of light of very short duration and comprising a quartz envelope substantially of dumb-bell shape and containing a filling of ionizable gas at a pressure not less than about 500 millimeters, the axial length of the bar portion of said dumb-bell shaped envelope being less than 2 cms., the mean internal diameter of said bar portion being less than 1 cm. and less than the length thereof, the bulbous ends of said envelope having a mean internal diameter not less than 2 ems. and a volume considerably greater than the volume of said bar portion, and an electrode in each said bulbous end of the envelope having its discharge termination surface adjacent to the corresponding end of the said bar portion of the envelope ems.
  • a gaseous electric discharge lamp for producing intense flashes of light of very short duration comprising a quartz envelope substantially of dumb-bell shape and containing a filling of ionizable gas at a pressure of several hundred millimeters, the bar portion of the dumbbell shaped envelope having an axial length of about 15 mm.
  • each bulbous end of the dumb-bell shaped envelope being approximately spherical and having an internal diameter of about 30 mm., and an electrode in each said bulbous end of the envelope having its discharge termination surface adjacent to thecorresponding end of the said bar portion of the envelope to define a discharge path therebetween about 19 mm. long, and means including a source of electricalenergy for impressing between the electrodes a brief voltage pulse of magnitude suflicient to produce an intense flash of light through the gas in saidbar portion with concomitant creation of a high pressure shock wave, said bulbous ends providing expansion chambers for reducing shock to the envelope due to heating and expansion of the gas filling.

Description

Dec. 11, 1956 A. H. WILLOUGHBY 2,774,013
ELECTRIC DISCHARGE LAMP Filed Maich 23; 19:50
Invervtov: Anthona HWiLLogghbg, y W K His Atbor-ne9 United States Patent ELECTRIC DISCHARGE LAMP Anthony H. Willoughby, Rickmansworth, England, as-
signor to General Electric Company, a corporation of New York Application March 23, 1950, Serial No. 151,440
Claims priority, application Great Britain April 7, 1949 2 Claims. (Cl. 315241) This invention relates to electric discharge lamps for producing intense flashes of light of very short duration. Such lamps usually have a filling comprising one or more permanent gases, and the filling may also include additives, for example metals placed in the discharge path or other gases or vapors, for modifying the spectrum of the light emitted.
In operation of such lamps, the flash is usually produced by connecting across the electrodes of the lamp a condenser charged to a high voltage, so that the flash is produced as a discharge of the condenser through the lamp; usually the condenser voltage is arranged to be somewhat less than the striking voltage of the lamp and the discharge is triggered off by the application of a suitable voltage to an auxiliary electrode associated with the lamp.
With such lamps it is often desirable that the rate of energy dissipation in each flash should be as great as possible, but in practice an upper limit to the rate of energy dissipation is usually set by one or other of two main factors. Thus during each flash the inner surface of the envelope surrounding the discharge is heated intensely by the discharge and if this heating (which of course increases with the rate of energy dissipation per flash) is too great, deterioration of the envelope results, usually by crazing of the inner surface of the envelope and possibly followed by cracking right through the wall of the envelope. It has been proposed to reduce this difficulty by using within a glass envelope a tubular quartz insert arranged to contain and constrict the discharge.
The second factor also arises from the intense heat produced by the discharge which causes rapid thermal expansion of the gas filling of the lamp in the neighborhood of the discharge, setting up a pressure wave in the filling which administers a violent shock to the envelope and may fracture it if the rate of heating produced by the discharge is too great.
It is sometimes desirable that the length of the discharge path in a lamp of the kind referred to should be small, e. g. a few centimeters, so that the lamp may cooperate efiiciently with optical projection apparatus, but it is to be noted that for a given energy dissipation per flash the disadvantageous effects of the two factors aforementioned increase as the length of the discharge path decreases, since the heat produced by the discharge is more localized and the heating efiect thereby intensified.
The object of this invention is to provide a novel form of lamp of the kind referred to with which a very high energy dissipation per flash can be achieved and which can be arranged to have a very short arc length so as to render it very suitable for use with optical projection apparatus.
According to one aspect of the invention, an electric discharge lamp for producing intense flashes of light of very short duration has a quartz envelope substantially of dumb-bell shape, containing a filling consisting wholly or mainly of one or more permanent gases, the axial length of the bar of the dumb-bell being greater than the mean internal diameter of the bar and the internal volume of each bulbous end of the dumb-bell being con siderably greater than the internal volume of the bar, and each bulbous end of the dumb-bell contains an elec-- trode, with a lead thereto sealed through that end, the discharge termination surface of which electrode lies adjacent to the corresponding end of the bar of the dumbbell.
The bar of the dumb-bell is thus arranged to contain and constrict the discharge while the bulbous ends provide expansion chambers into which the gas filling heated by the discharge can expand for reducing the shock to the envelope. The envelope, being of quartz, is highly refractory for resisting the heating produced by the discharge and is strong mechanically for withstanding the pressure-wave shock.
Preferably the bulbous ends of the dumb-bell are both of approximately spherical shape, though other shapes, such as substantially cylindrical, may sometimes be used.
The electrodes may conveniently consist of metal rods,
preferably of tungsten or molybdenum, and leads to them' may be brought out through the bulbous ends by the well-known quartz seal techniques.
The pressure of the permanent gas filling may vary according to the length of the discharge path, i. e., the length of the bar of the dumb-bell, but for efiicient operation the pressure is preferably never less than 400 mms. of mercury, and with very short discharge path lengths,
i. e. of about three centimeters or less, is preferably about one atmosphere. The statement that the filling may consist mainly of permanent gas is used to imply the possible presence of one or more additives, as af0remen-' tioned, for modifying the spectrum of the light emitted. The permanent gas used is preferably krypton or a mixture of krypton and xenon.
For triggering off the discharge, a lamp in accordance with the invention may be fitted with an auxiliary electrode, which may conveniently take the form of a length of wire outside the envelope, attached at each end to the envelope and closely following the outer contour of the envelope along the direction of the axis of the lamp.
A lamp in accordance with the invention designed with dimensions within the following limits is very suitable for use as a small light source in optical projection apparatus:
Length of bar of dumb-bell, less than 2 cms.
Mean internal diameter of bar, less than 1 cm.
Length of discharge path between electrodes, not more than 2 cms.
Mean internal diameter of bulbous ends (approximately spherical), not less than 2 cms.
Pressure of permanent gas filling, not less than 500 mm.
of mercury.
One lamp in accordance with the invention will now be described by Way of example in connection with the drawing which is an elevation, partly in section, of such a lamp.
The lamp has a quartz envelope 1 of dumb-bell shape with walls about 3 mm. thick; the bar 2 of the dumbbell is of about 15 mm. axial length and 4 mm. in internal diameter. Each of the bulbous end portions 3 is approximately spherical and 30 mm. in internal diameter and each at the side diametrically opposite and projecting away from the bar of the dumb-bell is continued by a quartz extension tube 4 in which is set, and which is collapsed onto, a stout cylindrical tungsten rod electrode 5 (wrapped in molybdenum foil where the quartz is collapsed onto it) of 3 mm. diameter, which rod projects diametrically for 28 mm. within the envelope so that its end face 6, which is plane, lies adjacent to the corresponding end of the bar 2 of the dumb-bell and so that there 3 is a gap of 19mm. between the opposed ends 66 of the rods 5-5.
The quartz side-stems 4 in which the rods 5 are set are continued by molybdenum foil strip-seals of known.
kind, of large current-handling capacity, the rod electrodes- 5 being connected to the foils at one end of the seals and metal connecting clamps (not shown) being fixed around the exposed parts of the foil 7 at the other end of the seals.
A starting electrode consisting of a length of bent wire 8 following closely the outer contour of the dumb-bell envelope 1 is attached at each end to one of the quartz side-stems 4.
The envelope 1 of the lamp is filled with krypton or a krypton-xenon mixture at a pressure of 700 mm. of mercury.
A condenser 9 is connected across the electrodes 5-5 of the lamp and is charged to a highvoltage from a suitable source. The condenser voltage is ordinarily somewhat less than the striking or ignition voltage of the lamp and the discharge is triggered by the application of a suitable voltage from a transformer 10 to the auxiliary electrode 8.
With the lamp as. described with a purely krypton filling I have succeeded in obtaining flashes of one millisecond duration with an energy dissipation of 2000 wattseconds per flash.
What I claim as new and desire to secure by Letters Patent of the United States is:
1. A gaseous electric discharge lamp for producing intense flashes of light of very short duration and comprising a quartz envelope substantially of dumb-bell shape and containing a filling of ionizable gas at a pressure not less than about 500 millimeters, the axial length of the bar portion of said dumb-bell shaped envelope being less than 2 cms., the mean internal diameter of said bar portion being less than 1 cm. and less than the length thereof, the bulbous ends of said envelope having a mean internal diameter not less than 2 ems. and a volume considerably greater than the volume of said bar portion, and an electrode in each said bulbous end of the envelope having its discharge termination surface adjacent to the corresponding end of the said bar portion of the envelope ems. long, and means including a source of electrical energy for impressing between the electrodes a brief voltage pulse of magnitude sufficient to produce an intense flash of light through the gas in said bar portion with concomitant creation of a high pressure shock wave, said bulbous ends providing expansion chambers for reducing shock to the envelope due to heating and expansion of the, gas filling- 2. A gaseous electric discharge lamp for producing intense flashes of light of very short duration and comprising a quartz envelope substantially of dumb-bell shape and containing a filling of ionizable gas at a pressure of several hundred millimeters, the bar portion of the dumbbell shaped envelope having an axial length of about 15 mm. and a mean internal diameter of about 4 mm., each bulbous end of the dumb-bell shaped envelope being approximately spherical and having an internal diameter of about 30 mm., and an electrode in each said bulbous end of the envelope having its discharge termination surface adjacent to thecorresponding end of the said bar portion of the envelope to define a discharge path therebetween about 19 mm. long, and means including a source of electricalenergy for impressing between the electrodes a brief voltage pulse of magnitude suflicient to produce an intense flash of light through the gas in saidbar portion with concomitant creation of a high pressure shock wave, said bulbous ends providing expansion chambers for reducing shock to the envelope due to heating and expansion of the gas filling.
References Cited in the file of this patent UNITED STATES PATENTS 2,020,736 Pirani Nov. 12, 1935 2,054,846 Zillger- Sept. '22, 1936 2,116,429 Gooskens May 3, 1938 2,159,824 Spanner May 23, 1939 2,166,951 Germer July 25, 1939 2,168,861 Blackburn Aug. 8, 1939 2,176,134 Holst Oct. 17, 1939 2,241,968 Suits May 13, 1941
US151440A 1949-04-07 1950-03-23 Electric discharge lamp Expired - Lifetime US2774013A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB2774013X 1949-04-07

Publications (1)

Publication Number Publication Date
US2774013A true US2774013A (en) 1956-12-11

Family

ID=10915077

Family Applications (1)

Application Number Title Priority Date Filing Date
US151440A Expired - Lifetime US2774013A (en) 1949-04-07 1950-03-23 Electric discharge lamp

Country Status (1)

Country Link
US (1) US2774013A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2893289A (en) * 1953-03-09 1959-07-07 Harold E Edgerton Microscope flash-photography system and apparatus
US2924734A (en) * 1955-06-09 1960-02-09 Siemens Ag Spark gap device
US2924733A (en) * 1957-09-17 1960-02-09 Patent Treuhand Ges Fuer Elektrische Gluehlampen Mbh Wall-stabilized electric high-pressure gaseous discharge lamp
US3056904A (en) * 1958-10-20 1962-10-02 Minnesota Mining & Mfg Thermoprinting apparatus and method
US3204147A (en) * 1960-07-08 1965-08-31 Frungel Frank Spark discharge lamp having a predetermined ratio between the cross-section of the electrodes and the inner surface of the tube
US3233137A (en) * 1961-08-28 1966-02-01 Litton Systems Inc Method and apparatus for cleansing by ionic bombardment
US3727525A (en) * 1968-06-29 1973-04-17 O Takeuchi Device for making phosphor screen for color picture tubes
US4476413A (en) * 1978-05-22 1984-10-09 Commonwealth Scientific And Industrial Research Organization Atomic spectral lamp

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2020736A (en) * 1932-02-22 1935-11-12 Gen Electric Gaseous electric discharge device
US2054846A (en) * 1933-09-13 1936-09-22 Nat Television Corp Modulating lamp assembly and circuit therefor
US2116429A (en) * 1935-10-14 1938-05-03 Gen Electric Assembly for discharge devices
US2159824A (en) * 1936-12-01 1939-05-23 Hans J Spanner Discharge device
US2166951A (en) * 1929-07-01 1939-07-25 Ulrich W Doering Discharge device
US2168861A (en) * 1934-06-30 1939-08-08 Westinghouse Electric & Mfg Co Stroboscopic lamp
US2176134A (en) * 1936-03-27 1939-10-17 Gen Electric Electric gaseous discharge device
US2241968A (en) * 1939-06-21 1941-05-13 Gen Electric Light source

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2166951A (en) * 1929-07-01 1939-07-25 Ulrich W Doering Discharge device
US2020736A (en) * 1932-02-22 1935-11-12 Gen Electric Gaseous electric discharge device
US2054846A (en) * 1933-09-13 1936-09-22 Nat Television Corp Modulating lamp assembly and circuit therefor
US2168861A (en) * 1934-06-30 1939-08-08 Westinghouse Electric & Mfg Co Stroboscopic lamp
US2116429A (en) * 1935-10-14 1938-05-03 Gen Electric Assembly for discharge devices
US2176134A (en) * 1936-03-27 1939-10-17 Gen Electric Electric gaseous discharge device
US2159824A (en) * 1936-12-01 1939-05-23 Hans J Spanner Discharge device
US2241968A (en) * 1939-06-21 1941-05-13 Gen Electric Light source

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2893289A (en) * 1953-03-09 1959-07-07 Harold E Edgerton Microscope flash-photography system and apparatus
US2924734A (en) * 1955-06-09 1960-02-09 Siemens Ag Spark gap device
US2924733A (en) * 1957-09-17 1960-02-09 Patent Treuhand Ges Fuer Elektrische Gluehlampen Mbh Wall-stabilized electric high-pressure gaseous discharge lamp
US3056904A (en) * 1958-10-20 1962-10-02 Minnesota Mining & Mfg Thermoprinting apparatus and method
US3204147A (en) * 1960-07-08 1965-08-31 Frungel Frank Spark discharge lamp having a predetermined ratio between the cross-section of the electrodes and the inner surface of the tube
US3233137A (en) * 1961-08-28 1966-02-01 Litton Systems Inc Method and apparatus for cleansing by ionic bombardment
US3727525A (en) * 1968-06-29 1973-04-17 O Takeuchi Device for making phosphor screen for color picture tubes
US4476413A (en) * 1978-05-22 1984-10-09 Commonwealth Scientific And Industrial Research Organization Atomic spectral lamp

Similar Documents

Publication Publication Date Title
SU1055347A3 (en) Device for generating high-intensity ultraviolet radiation
US4475061A (en) High-pressure discharge lamp current supply member and mounting seal construction
US5323091A (en) Starting source for arc discharge lamps
JP4593693B2 (en) High pressure discharge lamp
US2765416A (en) Vapor lamps utilizing chemical compounds
US2774013A (en) Electric discharge lamp
JPH01134849A (en) Arc discharge lamp with electrodeless ultraviolet starter
US3900753A (en) High pressure sodium vapor lamp having low starting voltage
US3721846A (en) Sodium vapor lamp having improved starting means including a heater
US1984428A (en) Gaseous electric discharge device
US3828214A (en) Plasma enshrouded electric discharge device
US4001624A (en) Soft glass flashtube
JP2005522825A (en) High pressure discharge lamp
US3757159A (en) Sodium vapor lamp having improved starting means
US2492619A (en) Electrical discharge tube
JP4619002B2 (en) High pressure discharge lamp
JP2003517710A (en) High pressure discharge lamp
US3721845A (en) Sodium vapor lamp having improved starting means
US3317777A (en) Electric discharge devices
GB1337134A (en) Metal halide lamp
US3590306A (en) Convective arc stabilization by lamp rotation
US7301283B1 (en) Starting aid for low wattage metal halide lamps
US3651365A (en) Xenon slash lamp with sodium starting band and method of making same
US2030426A (en) Gaseous electric discharge lamp device
US3806747A (en) Sodium vapor lamp having an improved grooved alumina arc tube