US2029986A - Electric lighting apparatus - Google Patents

Electric lighting apparatus Download PDF

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US2029986A
US2029986A US592114A US59211432A US2029986A US 2029986 A US2029986 A US 2029986A US 592114 A US592114 A US 592114A US 59211432 A US59211432 A US 59211432A US 2029986 A US2029986 A US 2029986A
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electrodes
electrode
helium
millimeters
anode
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US592114A
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Claude Andre
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/02Details
    • H01J17/04Electrodes; Screens
    • H01J17/06Cathodes
    • H01J17/066Cold cathodes
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/0064Tubes with cold main electrodes (including cold cathodes)
    • H01J2893/0065Electrode systems
    • H01J2893/0066Construction, material, support, protection and temperature regulation of electrodes; Electrode cups

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  • the present invention relates to electric lighting apparatus and more particularly to gaseous discharge apparatus.
  • an anode of this kind consists in covering with a suitable dielectric, for. example silica, glass, or quartz, the parts of go the anode, and notably its edges, which-are liable to disintegrate by projecting particles of the an odic material on to the cold parts or insufficiently heated parts of the discharge apparatus.
  • a suitable dielectric for. example silica, glass, or quartz
  • luminescent tubes having an atmosphere of helium can only operate under conditions of durability acceptable in industry by using relatively high pressures, of the order of ten millimeters of mercury,
  • Advantages equally valuable can also be ob- 15 tained with electric discharge apparatus containing gas mixtures in which it is necessary to preserve the constancy of proportions of the gaseous constituents during the life of the apparatus, such as when one or several of the constituents 20 of the gas mixtures employed is by its nature particularly absorbable, as for example helium, or
  • the gas mixture containing for example a very low percentage of neon in an at- 25 mosphere of helium.
  • An electrode according to the present invention may be obtained, for example, by dipping in melted borax or in enamel the open end of a closed metal cylinder constituting the electrode.
  • l is a luminous tube contain- I ing a rarefied gaseous mass formed for example of helium.
  • This tube is provided at each of its ends with a chamber 2 containing an electrode 3, which is adapted in this case to act alternately as anode and cathode.
  • These electrodes are con- 40 nected to an external electric circuit 4-4.
  • Each of these electrodes is constituted by a metal cylinder closed at one of its ends. At its opposite open end each electrode is covered externally and internally with a layer 5 of a dielectric material.
  • This layer may have been obtained, for instance, by plunging this open end of the electrode into a bath of melted borax or into a bath of enamel, in such'a manner as to enclose or sheath the free edge of the said electrode and the external and 50 internal surface of the same 'er the length desired.
  • the dielectric coating thus obtained has the advantage of being extremely light, and consequently not appreciably increasing the weight of the electrode or the tube.
  • the electric discharge apparatus thus formed is connected by the conductors L4 to a source of electrical energy 6 which forms with these conductors and this apparatus an electric circult the characteristics of which are such that the electric discharge apparatus i operates on the luminescent principle.
  • an electric discharge apparatus I charged with helium at an initial pressure of less than five millimeters of mercury, for instance two millimeters has a duration of working equal to and even superior to that obtained with a similar dis charge apparatus provided with electrodes with free edges and charged with helium at a pressure of ten millimeters of mercury, and this lighting apparatus according to the invention has furthermore the additional advantage of having an energy output distinctly superior to that of the usual lighting apparatus,
  • this deposit may consist for example either of alkaline or alkaline-earthrnetal, such as potassium and barium, or of oxides having a high emissive power, such as the oxides, peroxides or suboxides of rare earths. In the latter case, these oxide deposits may be brought to incandescence by known means.
  • An apparatus for producing an electric discharge in a gaseous atmosphere consisting of helium at a pressure of about 2 millimeters comprising-a plurality of electrodes, each of which is adapted to serve both as a cathode and an anode, each of said electrodes having the portion thereof subject to disintegration, to form deposits on the cold walls of the apparatus, provided with a dielectric coating, said electrodes in addition being provided with a deposit for effecting a small cathodic drop containing a metal selecter from the group consisting of alkali and alkali earth metals, and means for maintaining a current density in the apparatus of less than 0.75 millampere per square millimeter of cross section.
  • An apparatus for producing an electric discharge in a gaseous atmosphere consisting of helium at a pressure of about 2 millimeters comprising a plurality of electrodes, each of which is adapted to serve both as a cathode and an anode, each of said electrodes having the portion thereof subject to disintegration, to form deposits on the cold walls of the apparatus, provided with a dielectric coating, said electrodes in addition being provided with a deposit of metallic oxide having a high emissive power for eifecting a small cathodic drop, said deposit being adapted to be brought to incandescence during operation of the discharge apparatus, and means for-maintaining a current density in the apparaelectrodes positioned in said envelope, each of 1 which serves at the same time as a cathode and anode.
  • said electrodes having thin free edges subjectec: to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a deposit covering the electrodes for producing a small cathodic drop and containing a metal selected from the group consisting of alkali and alkaline earth metals.
  • An apparatus for producing an electric discharge in a gaseous atmosphere comprising an envelope filled with a gaseous atmosphere containing at least one rare gas, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as'a cathode and anode, said electrodes having thin free edges subjected to an intense electricfield', a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a deposit of an alkaline earth metal oxide covering the electrodes for producing a smallcathodic drop, said deposit being adapted to be brought to incandescence during operation of the apparatus.
  • An apparatus for producing an electric discharge in a gaseous atmosphere comprising an envelope filled with a gaseous atmosphere containing at least one rare gas at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a.
  • An apparatus for producing an electric discharge in a gaseous atmosphere comprising an envelope filled with helium at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a. deposit covering the electrodes for producing a small cathodic drop and containing a. metal selected from the group consisting of alkali and alkaline earth metals.
  • An apparatus for producing an electric discharge in a gaseous atmosphere comprising an envelope filled with helium at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of envelope filled with a gaseous atmosphere containing at least one rare gas at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a. cathode and anode, said electrodes having thin free edges subjected to an intense electric field, and a dielectric coating on the portions of each electrode which are subjected to an intense electric field.

Description

Feb. 4, 1936. A. CLAUDE 2,029,986
' ELECTRIC LIGHTING APPARATUS Filed Feb. 10, 1952 ATTUR/VEY Patented F eb; 4, 1936 UNITED STATES ELECTRIC LIGHTING APPARATUS Andr Claude, Nanterre, France Application February 10, 1932, Serial No. 592,114 InFrance February 19, 1931 9 Claims. (01. 176-126) The present invention relates to electric lighting apparatus and more particularly to gaseous discharge apparatus.
In my U. S. patent application Serial No. 570,-
451, filed October 22, 1931, relating to electric lighting devices which comprise more particularly a discharge apparatus functioningon the arc principle and in which the gaseous mass is at a very low pressure, the value of which perhaps 10 may be equal to a few hundredths of a millimeter of mercury, I have described methods of constructing anodes having for their object reduction of absorption of the gas due to the electric discharge and the obtaining of an apparatus of great durability of working and high output of energy.
One way of constructing an anode of this kind consists in covering with a suitable dielectric, for. example silica, glass, or quartz, the parts of go the anode, and notably its edges, which-are liable to disintegrate by projecting particles of the an odic material on to the cold parts or insufficiently heated parts of the discharge apparatus.
I have discovered that this method of construe-- 5 tion is equally applicable to the electrodes of electric discharge apparatus with rare gases iunc tioning on the luminescent principle. The result obtained is such that, with electrodes having an equal surface and nature, the life of the lighting apparatus is considerably increased, and it thus becomes possible -to construct electric discharge apparatus functioning on the luminescent principle in which for the same or a greater duration of working the pressure of the gaseous mass '(rare gas or mixture of rare gases) has a value distinctly lower than that of the apparatus functioning on the luminescent principle at present employed and which with'an equal consumption of energy have the additional advantage of pas-- 40 sessing an illuminating power distinctly superior to that of present apparatus. Furthermore, in these apparatus it is possible, while maintaining these advantages, to increase the consumption of I energy without modifying the surface of the electrodes.
For example, it is well-known that luminescent tubes having an atmosphere of helium can only operate under conditions of durability acceptable in industry by using relatively high pressures, of the order of ten millimeters of mercury,
and with low current intensities. The utilization lium. On the contrary a rare gas electric dis charge apparatus, and notably a helium gas ap- 5 paratus functioning on the luminescent principle, and provided with electrodes of which the parts capable of disintegration are covered with a dielectric has a considerably increased life and it is thus possible to produce an apparatus of 10 this kind provided with electrodes of reduced surface subjected to great current intensities and containing a gaseous atmosphere at low pressure assuring a high luminous output.
Advantages equally valuable can also be ob- 15 tained with electric discharge apparatus containing gas mixtures in which it is necessary to preserve the constancy of proportions of the gaseous constituents during the life of the apparatus, such as when one or several of the constituents 20 of the gas mixtures employed is by its nature particularly absorbable, as for example helium, or
when one or several of the constituents is in very weak proportions, the gas mixture containing for example a very low percentage of neon in an at- 25 mosphere of helium.
An electrode according to the present invention may be obtained, for example, by dipping in melted borax or in enamel the open end of a closed metal cylinder constituting the electrode.
The diagrammatic drawing annexed shows by way of example only and without in any way limiting the scope of the invention, an arrangement constructed on the lines above stated.
In this drawing, l is a luminous tube contain- I ing a rarefied gaseous mass formed for example of helium. This tube is provided at each of its ends with a chamber 2 containing an electrode 3, which is adapted in this case to act alternately as anode and cathode. These electrodes are con- 40 nected to an external electric circuit 4-4. Each of these electrodes is constituted by a metal cylinder closed at one of its ends. At its opposite open end each electrode is covered externally and internally with a layer 5 of a dielectric material. 45 This layer may have been obtained, for instance, by plunging this open end of the electrode into a bath of melted borax or into a bath of enamel, in such'a manner as to enclose or sheath the free edge of the said electrode and the external and 50 internal surface of the same 'er the length desired.
The dielectric coating thus obtained has the advantage of being extremely light, and consequently not appreciably increasing the weight of the electrode or the tube.
The electric discharge apparatus thus formed is connected by the conductors L4 to a source of electrical energy 6 which forms with these conductors and this apparatus an electric circult the characteristics of which are such that the electric discharge apparatus i operates on the luminescent principle. In these conditions, an electric discharge apparatus I charged with helium at an initial pressure of less than five millimeters of mercury, for instance two millimeters has a duration of working equal to and even superior to that obtained with a similar dis charge apparatus provided with electrodes with free edges and charged with helium at a pressure of ten millimeters of mercury, and this lighting apparatus according to the invention has furthermore the additional advantage of having an energy output distinctly superior to that of the usual lighting apparatus,
I have observed that the use of the device above described is particularly effective when it isapplied ,tolcgthodes which are capable of acting as anodes, and which comprise, according to a known arrangement, a deposit giving rise to a small cathode drop, lower than 20 volts: this deposit may consist for example either of alkaline or alkaline-earthrnetal, such as potassium and barium, or of oxides having a high emissive power, such as the oxides, peroxides or suboxides of rare earths. In the latter case, these oxide deposits may be brought to incandescence by known means.
I claim as my invention:
1. An apparatus for producing an electric discharge in a gaseous atmosphere consisting of helium at a pressure of about 2 millimeters, comprising-a plurality of electrodes, each of which is adapted to serve both as a cathode and an anode, each of said electrodes having the portion thereof subject to disintegration, to form deposits on the cold walls of the apparatus, provided with a dielectric coating, said electrodes in addition being provided with a deposit for effecting a small cathodic drop containing a metal selecter from the group consisting of alkali and alkali earth metals, and means for maintaining a current density in the apparatus of less than 0.75 millampere per square millimeter of cross section.
2. An apparatus for producing an electric discharge in a gaseous atmosphere consisting of helium at a pressure of about 2 millimeters, comprising a plurality of electrodes, each of which is adapted to serve both as a cathode and an anode, each of said electrodes having the portion thereof subject to disintegration, to form deposits on the cold walls of the apparatus, provided with a dielectric coating, said electrodes in addition being provided with a deposit of metallic oxide having a high emissive power for eifecting a small cathodic drop, said deposit being adapted to be brought to incandescence during operation of the discharge apparatus, and means for-maintaining a current density in the apparaelectrodes positioned in said envelope, each of 1 which serves at the same time as a cathode and anode. said electrodes having thin free edges subjectec: to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a deposit covering the electrodes for producing a small cathodic drop and containing a metal selected from the group consisting of alkali and alkaline earth metals.
4. An apparatus for producing an electric discharge in a gaseous atmosphere, comprising an envelope filled with a gaseous atmosphere containing at least one rare gas, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as'a cathode and anode, said electrodes having thin free edges subjected to an intense electricfield', a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a deposit of an alkaline earth metal oxide covering the electrodes for producing a smallcathodic drop, said deposit being adapted to be brought to incandescence during operation of the apparatus.
5. An apparatus for producing an electric discharge in a gaseous atmosphere, comprising an envelope filled with a gaseous atmosphere containing at least one rare gas at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a. dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a deposit of an alkaline earth metal oxide covering the electrodes for producing a small cathodic drop, said deposit being-adapted to be brought to incandescenc'e during operation of the apparatus.
7. An apparatus for producing an electric discharge in a gaseous atmosphere, comprising an envelope filled with helium at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a cathode and anode, said electrodes having thin free edges subjected to an intense electric field, a dielectric coating on the portions of each electrode which are subjected to an intense electric field, and a. deposit covering the electrodes for producing a small cathodic drop and containing a. metal selected from the group consisting of alkali and alkaline earth metals.
8. An apparatus for producing an electric discharge in a gaseous atmosphere, comprising an envelope filled with helium at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of envelope filled with a gaseous atmosphere containing at least one rare gas at a pressure less than 5 millimeters of mercury, a plurality of spaced electrodes positioned in said envelope, each of which serves at the same time as a. cathode and anode, said electrodes having thin free edges subjected to an intense electric field, and a dielectric coating on the portions of each electrode which are subjected to an intense electric field.
ANDRE CLAUDE.
US592114A 1931-02-19 1932-02-10 Electric lighting apparatus Expired - Lifetime US2029986A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2534762A (en) * 1945-08-13 1950-12-19 Epstein Hirsch Electrode structure for glow discharge tubes

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2534762A (en) * 1945-08-13 1950-12-19 Epstein Hirsch Electrode structure for glow discharge tubes

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