US2459516A - High-pressure mercury vapor lamp - Google Patents

High-pressure mercury vapor lamp Download PDF

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Publication number
US2459516A
US2459516A US682176A US68217646A US2459516A US 2459516 A US2459516 A US 2459516A US 682176 A US682176 A US 682176A US 68217646 A US68217646 A US 68217646A US 2459516 A US2459516 A US 2459516A
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electrodes
pressure mercury
mercury vapor
lamp
cathodes
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US682176A
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Victor J Francis
Evan H Nelson
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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
    • H01J61/84Lamps with discharge constricted by high pressure
    • H01J61/86Lamps with discharge constricted by high pressure with discharge additionally constricted by close spacing of electrodes, e.g. for optical projection
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J61/00Gas-discharge or vapour-discharge lamps
    • H01J61/92Lamps with more than one main discharge path

Definitions

  • An object of our invention is to provide a new and improved electric lamp.
  • Another object of our invention is to provide a new and improved high pressure mercury vapor lamp.
  • a further object of our invention is to provide an improved high pressure mercury vapor discharge lamp operable on either alternating or direct current and which is peculiarly adapted for use in optical projection systems.
  • a ew and improved high pressure mercury. vapor lamp for use in optical systems and which comprises a single electrode of one polarity and a plurality of electrodes of opposite polarity arranged to produce a conical array of electric discharges; the axis of the array may coincide with the axis of the optical system.
  • the plurality of electrodes which serve either as anodes or cathodes when the lamp is operated on alternating current, lie in a plane transverse or perpendicular to the optical axis or to the axis of the cone of radia-- tion produced by the discharge; and the plurality of electrodes are symmetrically and radially positioned, having their principal axes radially arranged.
  • FIG. 1 and 2 diagrammatically illustrate an embodiment of our invention as applied to a high pressure mercury vapor dis-- charge lamp.
  • Fig. 1 our invention is there illustrated as applied to a high pressure mercury vapor discharge lamp comprising a plurality of electrodes including a single electrode of one polarity and a plurality of electrodes of opposite polarity which are positioned relative to each other to produce a conical array of arc discharges.
  • the axis of the discharge cone being coincident with the axis of an associated optical system as illustrated in Fig. 2.
  • the single electrode is preferably an anode I constructed of a metal, such as tungsten, capable of withstanding high temperatures.
  • a plurality of electrodes of opposite polarity such as cathodes 2, 3 and 4 having their principal axes lying in a plane transverse to the longitudinal axis of the single electrode and also transverse to the axis of the associated optical system and to the axis of the cone of are discharges More particularly, the cathodes 2-4 inclusive lie in a plane perpendicular to the above-mentioned axis; and the principal axes of the cathodes 2-4 are radial so that upon the establishment of simultaneous arc discharges between the anode and the cathodes a cone of discharges is produced.
  • Cathodes 2-4 inclusive are also constructed of a high t perature resisting! metal, such as tungsten, and are supported in the radial positions illustrated by means of analogous or similar lead-in conductors 5, 6 and 'I which in turn are embedded in quartz or vitreous seals 8, 9 and I0 adherent to the inner surfaces of tubular quartz or vitreous necks I0, II and I2 which comprise tubulations of a quartz envelope I3.
  • a high t perature resisting! metal such as tungsten
  • the supporting structure for the anode I is generally similar to that employed for supporting the cathodes and comprises a lead-in conductor I4, a quartz or vitreous seal I5 in which the leadin conductor is embedded and a quartz or vitreous tubulation I6.
  • Suitable connections to the electrodes of the lamp may be effected by conductors I'I, I8 and l'9 which are connected to the cathodes, and conductor 20 which is connected to the anode.
  • the distance between any pair of electrodes between which the discharge passes in normal operation is much less than the distance of either member of the pair from the envelope of the device.
  • Anode I is preferably provided with a flat electrode operating face or arc-supporting surface 2
  • annular shield 22 having at least a part thereof surrounding the face 2I of the anode I and positioned so that it prevents radiation incident to the operation of the lamp from traveling backwards.
  • this shield 22 may be in the form of a truncated cone having its axis in alignment with the conical array of arc discharges and also in alignment with an optical axis 23 associated with a conventional type projecting lens 24.
  • the above described lamp is operable on either direct current or alternating current.
  • direct current of course, the polarity of the electrodes does not change, and consequently anode I continuously operates as an anode and the cathodes 2-4 serve their correcycle of alternating current supplied thereto.
  • J plurality of electrodes 2-4 are preferably operated as cathodes, since there is likely to be appreciable thermal radiation from the anode. which will be least obstructed if it is at the center of the ring. During normal operation of the lamp described a plurality of arc discharges are simultaneously established between the single electrode I and the plurality of electrodes 2-4.
  • a high pressure mercury vapor discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a single lectrode of one polarity having a free end aifording an operating electrode face and a plurality of electrodes of opposite polarity having their principal axes lying in a plane transverse to the longitudinal axis of said single electrode and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation being less than the distance of either 4 por discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a single electrodenf one polarity and a plurality of electrodes of opposite polarity, the distance between any pair ofv electrodes between which an arc discharge passes in normal operation being less than the distance of either electrode of the pair from said envelope and electrode of the pair from said envelope and said plurality of electrodes being radially and'symmetrically positioned to produce with said single electrode a conical array of electric discharges.
  • a high pressure mercury vapor discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a. single anode having a free end affording an operating electrode face and a plurality of cathodes having their principal axes lying in a plane parallel to the plane of said face and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation .being less than the distance of either electrode of the pair from said envelope and said cathodes being radially and symmetrically positioned to produce with the anode a conical array of electric discharges.
  • a high pressure mercury vasaid plurality of electrodes lying in a, plane transverse to an optical axis and positioned radially in said plane to produce a conical array of electrical discharges the axis of the array coinciding with the optical axis.
  • a high pressure mercury vapor discharge lamp comprising an envelope, a plurality of electrodes positioned within said envelope including a single electrode of one polarity having a free end affording an operating electrode face and a plurality of electrodes having their principal axes lying in a plane parallel to the plane of said face and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation being less than the distance of either REFERENCES CITED

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  • Discharge Lamp (AREA)
  • Discharge Lamps And Accessories Thereof (AREA)

Description

Jan. 18, 1949.
FIG. 1 5
v. FRANCIS ETAL 2,459,516
HIGH PRESSURE MERCURY VAPOR LAMP Filed July, 9,, 1945 INVENTORS= VICTOR J. FRANCIS, EVAN H. NELSON,
THEIR ATTQRNE? Petented Jan. 18, 194i 2,459,516 HIGH-PRESSURE MERCURY VAPOR LAMP Victor J. Francis, Aylesbury, and Evan H. Nelson, Harrow Weald, England, assignors to General Electric Company, a corporation of New York Application July 9, 1946, Serial No. 682,176 In Great Britain March 22, 1944 Section 1, Public Law 690, August 8, 1946 Patent expires March 22, 1964 4 Claims. (Cl. 176-122) Our invention relates to electric lamps, and more particularly to high pressure mercury vapor discharge lamps intended for use in optical projectlng apparatus.
An object of our invention is to provide a new and improved electric lamp.
Another object of our invention is to provide a new and improved high pressure mercury vapor lamp.
A further object of our invention is to provide an improved high pressure mercury vapor discharge lamp operable on either alternating or direct current and which is peculiarly adapted for use in optical projection systems.
Briefly stated, we provide a ew and improved high pressure mercury. vapor lamp for use in optical systems and which comprises a single electrode of one polarity and a plurality of electrodes of opposite polarity arranged to produce a conical array of electric discharges; the axis of the array may coincide with the axis of the optical system. The plurality of electrodes, which serve either as anodes or cathodes when the lamp is operated on alternating current, lie in a plane transverse or perpendicular to the optical axis or to the axis of the cone of radia-- tion produced by the discharge; and the plurality of electrodes are symmetrically and radially positioned, having their principal axes radially arranged.
For a better understanding of our invention reference may be had to the following description taken in connection with the accompanying drawing and its scope will be pointed out in the appended claims. Figs. 1 and 2 diagrammatically illustrate an embodiment of our invention as applied to a high pressure mercury vapor dis-- charge lamp.
In Fig. 1 our invention is there illustrated as applied to a high pressure mercury vapor discharge lamp comprising a plurality of electrodes including a single electrode of one polarity and a plurality of electrodes of opposite polarity which are positioned relative to each other to produce a conical array of arc discharges. The axis of the discharge cone being coincident with the axis of an associated optical system as illustrated in Fig. 2.
The single electrode is preferably an anode I constructed of a metal, such as tungsten, capable of withstanding high temperatures. We provide a plurality of electrodes of opposite polarity, such as cathodes 2, 3 and 4 having their principal axes lying in a plane transverse to the longitudinal axis of the single electrode and also transverse to the axis of the associated optical system and to the axis of the cone of are discharges More particularly, the cathodes 2-4 inclusive lie in a plane perpendicular to the above-mentioned axis; and the principal axes of the cathodes 2-4 are radial so that upon the establishment of simultaneous arc discharges between the anode and the cathodes a cone of discharges is produced.
Cathodes 2-4 inclusive are also constructed of a high t perature resisting! metal, such as tungsten, and are supported in the radial positions illustrated by means of analogous or similar lead-in conductors 5, 6 and 'I which in turn are embedded in quartz or vitreous seals 8, 9 and I0 adherent to the inner surfaces of tubular quartz or vitreous necks I0, II and I2 which comprise tubulations of a quartz envelope I3.
The supporting structure for the anode I is generally similar to that employed for supporting the cathodes and comprises a lead-in conductor I4, a quartz or vitreous seal I5 in which the leadin conductor is embedded and a quartz or vitreous tubulation I6. Suitable connections to the electrodes of the lamp may be effected by conductors I'I, I8 and l'9 which are connected to the cathodes, and conductor 20 which is connected to the anode.
In discharge lamps of the type which We provide, the distance between any pair of electrodes between which the discharge passes in normal operation is much less than the distance of either member of the pair from the envelope of the device.
Anode I is preferably provided with a flat electrode operating face or arc-supporting surface 2| at its free end and enjoys an uninterrupted view of the arc-supporting surfaces of each of the symmetrically positioned cathodes 2-4.
Optionally, we may employ an annular shield 22 having at least a part thereof surrounding the face 2I of the anode I and positioned so that it prevents radiation incident to the operation of the lamp from traveling backwards. As shown, this shield 22 may be in the form of a truncated cone having its axis in alignment with the conical array of arc discharges and also in alignment with an optical axis 23 associated with a conventional type projecting lens 24.
The above described lamp is operable on either direct current or alternating current. When the lamp is operated on direct current, of course, the polarity of the electrodes does not change, and consequently anode I continuously operates as an anode and the cathodes 2-4 serve their correcycle of alternating current supplied thereto.
If the lamp is operated on direct current, the
J plurality of electrodes 2-4 are preferably operated as cathodes, since there is likely to be appreciable thermal radiation from the anode. which will be least obstructed if it is at the center of the ring. During normal operation of the lamp described a plurality of arc discharges are simultaneously established between the single electrode I and the plurality of electrodes 2-4.
What we claim as new and desire to secure by Letters Patent of the United States is:
'1. In combination, a high pressure mercury vapor discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a single lectrode of one polarity having a free end aifording an operating electrode face and a plurality of electrodes of opposite polarity having their principal axes lying in a plane transverse to the longitudinal axis of said single electrode and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation being less than the distance of either 4 por discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a single electrodenf one polarity and a plurality of electrodes of opposite polarity, the distance between any pair ofv electrodes between which an arc discharge passes in normal operation being less than the distance of either electrode of the pair from said envelope and electrode of the pair from said envelope and said plurality of electrodes being radially and'symmetrically positioned to produce with said single electrode a conical array of electric discharges.
2. In combination, a high pressure mercury vapor discharge lamp comprising an envelope, and a plurality of electrodes positioned within said envelope including a. single anode having a free end affording an operating electrode face and a plurality of cathodes having their principal axes lying in a plane parallel to the plane of said face and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation .being less than the distance of either electrode of the pair from said envelope and said cathodes being radially and symmetrically positioned to produce with the anode a conical array of electric discharges.
3. In combination, a high pressure mercury vasaid plurality of electrodes lying in a, plane transverse to an optical axis and positioned radially in said plane to produce a conical array of electrical discharges the axis of the array coinciding with the optical axis.
4. In combination, a high pressure mercury vapor discharge lamp comprising an envelope, a plurality of electrodes positioned within said envelope including a single electrode of one polarity having a free end affording an operating electrode face and a plurality of electrodes having their principal axes lying in a plane parallel to the plane of said face and longitudinally spaced therefrom, the distance between any pair of electrodes between which an arc discharge passes in normal operation being less than the distance of either REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS
US682176A 1944-03-22 1946-07-09 High-pressure mercury vapor lamp Expired - Lifetime US2459516A (en)

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Application Number Priority Date Filing Date Title
GB5388/44A GB613906A (en) 1944-03-22 1944-03-22 Improvements in high pressure mercury vapour electric projection lamps

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625671A (en) * 1949-07-19 1953-01-13 Krefft Hermann Eduard Electrical discharge lamp
US2974249A (en) * 1958-01-28 1961-03-07 Duro Test Corp Xenon short arc lamps
US3114855A (en) * 1961-06-27 1963-12-17 Bausch & Lomb Gas discharge lamp with a collimating reflector electrode
US3304457A (en) * 1961-09-21 1967-02-14 Trw Inc High intensity light source
US3766430A (en) * 1970-10-08 1973-10-16 Patent Gmbh High pressure compact arc discharge lamp for multiphase operation
US4208618A (en) * 1978-09-20 1980-06-17 Westinghouse Electric Corp. Compact single-ended fluorescent lamp
US4912364A (en) * 1987-07-16 1990-03-27 Tungsram Reszvenytarsasag Three-phase high-pressure gas discharge lamp filled with a gas containing sodium or a metal-halide

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL38702C (en) *
US1585173A (en) * 1922-01-03 1926-05-18 Simpson Frederick Grant Converter of electric currents
GB526401A (en) * 1939-03-15 1940-09-17 Siemens Electric Lamps & Suppl Improvements relating to electric discharge lamps

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL38702C (en) *
US1585173A (en) * 1922-01-03 1926-05-18 Simpson Frederick Grant Converter of electric currents
GB526401A (en) * 1939-03-15 1940-09-17 Siemens Electric Lamps & Suppl Improvements relating to electric discharge lamps

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625671A (en) * 1949-07-19 1953-01-13 Krefft Hermann Eduard Electrical discharge lamp
US2974249A (en) * 1958-01-28 1961-03-07 Duro Test Corp Xenon short arc lamps
US3114855A (en) * 1961-06-27 1963-12-17 Bausch & Lomb Gas discharge lamp with a collimating reflector electrode
US3304457A (en) * 1961-09-21 1967-02-14 Trw Inc High intensity light source
US3766430A (en) * 1970-10-08 1973-10-16 Patent Gmbh High pressure compact arc discharge lamp for multiphase operation
US4208618A (en) * 1978-09-20 1980-06-17 Westinghouse Electric Corp. Compact single-ended fluorescent lamp
US4912364A (en) * 1987-07-16 1990-03-27 Tungsram Reszvenytarsasag Three-phase high-pressure gas discharge lamp filled with a gas containing sodium or a metal-halide

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