US750414A - hermann viertel - Google Patents

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US750414A
US750414A US750414DA US750414A US 750414 A US750414 A US 750414A US 750414D A US750414D A US 750414DA US 750414 A US750414 A US 750414A
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light
vapors
chamber
incandescent
electrodes
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/02Details
    • H01J17/14Magnetic means for controlling the discharge

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  • My invention relates to improvements in devices for producing electric light in which the light-emitting medium consists mainly of vapors rendered highly incandescent by the passage of an electric current through them.
  • the invention differs herein from common arc-lamps in which the light is generally emitted exclusively from the incandescent carbon points and from. arc-lamps with carbon pencils containing an addition of metallic salts, in which a great portion of the emitted light emanates also from the incandescent cratersurfaces of the electrodes.
  • my present invention is based upon consists in heating as great a quantity of vapor as possible by the passage of an electric current and in raising the temperature of the incandescent vapors, soas to obtain as perfect a ⁇ transformation as possible of electric energy into light-rays.
  • vapor lamps mainly such substances were used as evaporate at relatively low temperatures, so that, for instance, the incandescent vapors could be inclosed within closed vessels with transparent walls-as, for instance, within cooled glass vessels.
  • very high temperatures must be applied, and this, again, presupposes the use of evaporating substances, but at a correspondingly high temperature.
  • I employ a hollow body or chamber of refractory material, preferably in the shape of a tube or chamber Wholly closed except at its bottom.
  • a hollow body or inversed chamber Within this hollow body or inversed chamber are evaporated the substances the vapors of which are to be rendered incandescent. Said vapors are kept incandescent by the electrodes entering said chamber at its longitudinal ends.
  • the hollow space must be shaped so that the vapors fill it as perfectly as possible, so as to avoid noxious whirling movements thereof.
  • the axis of vthe hollow space or chamber be horizontal or that the margin of the opening at the bottom of the chamber lies in a horizontal plane in order to prevent the cold air from entering the hollow space from the lower parts and to prevent the heated air from escaping at the 'upper parts, as the air circulation caused thereof the by would entail a disturbing motion vapor masses.
  • carbon pencils as electrodes, as they combine high conductivity for heat with a very high point of evaporation. If pure carbon electrodes are used, a space lledwith carbon vapors in the shape of a very large arch of light is obtained, which, however, emanates itself a great portion of the produced light. A gain in the radiation of light is more especially realized if vapors of other substances which have a very high temperature of volatilization are produced, said substances being preferably added to the electrodes-for instance, as central cores of carbon rods.
  • the quantity of such substances which will render the arc luminous may be limited to a few per cent., as the parts once evaporated rest for a long time as incandescent vapors within the chamber, a substitution being only necessary for those slight quantities of vapor which are being condensed on the relatively cooler walls or which escape into the surrounding atmosphere. Owing to the extremely high difference in the temperatures of the vapors inclosed within the hollow spaces and of the surrounding air, respectively, to the difference in the specific weights of the inclosed vapors and of the surrounding air, a very strong aerodynamic upward motion of the incandescent vapors takes place.
  • the electrodes are preferably made to enter the chamber horizontally, so that their axes nearly coincide with the horizontal axis of the hollow space. The consumption of the electrodes is very slight.
  • lamps as described may be run with fixed electrodes during a very long time interval without any trouble.
  • the required regulating mechanism may be a very simple one.
  • I can with ease and certainty maintain a vapor column about six inches long and about one and three-fourths inches in diameter in incandescent state by using arc-lamp electrodes containing, for instance, a low percentage of iuoric spar in the central core./
  • a pressure of from one hundred and twenty to one hundred and fifty volts at the terminals of the electrodes is required. It is thus possibleto run single lamps on hightension circuits, in which case relatively very small resistances only are necessary.
  • a magnetic field which is nearly homogeneous all along the tubular body and the lines of force of which are perpendicular to the axis of said body.
  • An arrangement for producing such a field as applied to the device is shown in Figs. 3 and 4L of the drawings. It consists of a sheet-iron case e, surrounding the outer sid-es of the hollow body and provided at its upper part with windings f, excited by the main current.
  • a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current through them the combination with a closed tubular horizontal hollow body or chamber of refractory material having an opening at its bottom, of electrodesv projecting into said hollow body or chamber, the latter having a greater length than diameter, as and for the purpose set forth.
  • a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current through them the combination with a closed tubular horizontal hollow body or chamber of refractory material, having an opening at its bottom, of electrodes arranged horizontally or nearly horizontally and projecting into said hollow body or chamber, the latter having a greater length than diameter, as and for the purpose set forth.

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  • Vessels And Coating Films For Discharge Lamps (AREA)

Description

PATENTED JAN. 26, 1904.
H. VIERTEL.
DEVICEFOR PRODUCING ELECTRIC LIGHT.
APPLICATION FILED JUNE l, i903.
No MODEL.
.\\\\\\\\\-:`\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\x\\\\\\\\\\\\\\\\\\\\\\\\\\\\\vw UNITED ISTATES :Patented January 26, 1904.
PATENT OFFICE.
HERMANN VIER'IEL, OF CHARLOTTENBURG, GERMANY, ASSIGNOR TO GEBRDER SIEMENS & CO., OF CHARLOTTENBURG, NEAR BERLIN,
GERMANY.
DEVICE FOR PRODUCING ELECTRIC LIGHT.
SPECIFICATION forming part of Letters Patent No. 750,414, fdated. January 26, 1904.-. Application filed June l, 1903. Serial No. 159,715. (No model.)
To @ZZ whom, it may concern:
Beit known that I, HERMANN VIERTEL, engineer, a subject of the German Emperor, residing at 17 Goethestrasse, Charlottenburg, near Berlin, in the German Empire, have invented a certain new and useful Improvement in Devices for Producing Electric Light, of which the following is a full, clear, concise, and exact description, reference being had to the accompanying drawings, forming a part of this specification.
My invention relates to improvements in devices for producing electric light in which the light-emitting medium consists mainly of vapors rendered highly incandescent by the passage of an electric current through them. The invention differs herein from common arc-lamps in which the light is generally emitted exclusively from the incandescent carbon points and from. arc-lamps with carbon pencils containing an addition of metallic salts, in which a great portion of the emitted light emanates also from the incandescent cratersurfaces of the electrodes.
he principle my present invention is based upon consists in heating as great a quantity of vapor as possible by the passage of an electric current and in raising the temperature of the incandescent vapors, soas to obtain as perfect a `transformation as possible of electric energy into light-rays. In the experiments heretofore carried out with vapor lamps mainly such substances were used as evaporate at relatively low temperatures, so that, for instance, the incandescent vapors could be inclosed within closed vessels with transparent walls-as, for instance, within cooled glass vessels. In order to realize again in the radiation of light, very high temperatures must be applied, and this, again, presupposes the use of evaporating substances, but at a correspondingly high temperature.
To carry out my invention, it is essential toinclose the very voluminous vapor masses so as to give to them the shape of a conductor of a more or less uniform cross-section, to maintain this shape of conductor, if possible, during the whole time of the combustion with- Y out any disturbing motion of the vapor masses,
horizontal plane.
and at the same time to permit the free escape of the produced light. To full these requirements according to my present invention, I employ a hollow body or chamber of refractory material, preferably in the shape of a tube or chamber Wholly closed except at its bottom. Within this hollow body or inversed chamber are evaporated the substances the vapors of which are to be rendered incandescent. Said vapors are kept incandescent by the electrodes entering said chamber at its longitudinal ends. The hollow spacemust be shaped so that the vapors fill it as perfectly as possible, so as to avoid noxious whirling movements thereof. It is an essential feature of my invention that the axis of vthe hollow space or chamber be horizontal or that the margin of the opening at the bottom of the chamber lies in a horizontal plane in order to prevent the cold air from entering the hollow space from the lower parts and to prevent the heated air from escaping at the 'upper parts, as the air circulation caused thereof the by would entail a disturbing motion vapor masses.
By the present arrangement it is rendered possible to maintain verylarge vapor quantities in an incandescent state and to obtain an extremely steady and uniform light without usingany sensitive regulating devices.
My present invention is illustrated in the accompanying drawings, in which- Figure 1 is a longitudinal section; Fig. 2, a
cross-section thereof, and Figs. 3 and L a owing to their slight volume relatively to the volume of the whole vapor mass will not cause any noxious whirling movements in the vapor mass.V
I prefer to use carbon pencils as electrodes, as they combine high conductivity for heat with a very high point of evaporation. If pure carbon electrodes are used, a space lledwith carbon vapors in the shape of a very large arch of light is obtained, which, however, emanates itself a great portion of the produced light. A gain in the radiation of light is more especially realized if vapors of other substances which have a very high temperature of volatilization are produced, said substances being preferably added to the electrodes-for instance, as central cores of carbon rods. The quantity of such substances which will render the arc luminous may be limited to a few per cent., as the parts once evaporated rest for a long time as incandescent vapors within the chamber, a substitution being only necessary for those slight quantities of vapor which are being condensed on the relatively cooler walls or which escape into the surrounding atmosphere. Owing to the extremely high difference in the temperatures of the vapors inclosed within the hollow spaces and of the surrounding air, respectively, to the difference in the specific weights of the inclosed vapors and of the surrounding air, a very strong aerodynamic upward motion of the incandescent vapors takes place. As by this arrangement the escape of vapors from'the hollow spaces is entirely prevented, the behavior of the gases contained in the chamber is the same as if they were perfectly shut 0E from the surrounding air. The electrodes are preferably made to enter the chamber horizontally, so that their axes nearly coincide with the horizontal axis of the hollow space. The consumption of the electrodes is very slight.
Owing to the fact that with regard to the great length of the column of vapor slight alteration in the length of the electrodes, respectively, in the length of the conductor formed by the Vapor between the carbon points have no material iniiuence upon the pressure and intensity of the current, lamps as described may be run with fixed electrodes during a very long time interval without any trouble. The required regulating mechanism may be a very simple one. With an arrangement according to my present invention I can with ease and certainty maintain a vapor column about six inches long and about one and three-fourths inches in diameter in incandescent state by using arc-lamp electrodes containing, for instance, a low percentage of iuoric spar in the central core./ To obtain such an arc-shaped vapor-body, a pressure of from one hundred and twenty to one hundred and fifty volts at the terminals of the electrodes is required. It is thus possibleto run single lamps on hightension circuits, in which case relatively very small resistances only are necessary.
I have discovered that the effect produced by the arrangement hereinbefore described may be materially increased if a magnetic field is applied to act on the vapor arc. I prefer to use a magnetic field which is nearly homogeneous all along the tubular body and the lines of force of which are perpendicular to the axis of said body. An arrangement for producing such a field as applied to the device is shown in Figs. 3 and 4L of the drawings. It consists of a sheet-iron case e, surrounding the outer sid-es of the hollow body and provided at its upper part with windings f, excited by the main current.
Having thus described my invention, what I claim, and desire to secure by Letters Patent of the United States, is-
l. In a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current through them, the combination with a closed tubular horizontal hollow body or chamber of refractory material having an opening at its bottom, of electrodesv projecting into said hollow body or chamber, the latter having a greater length than diameter, as and for the purpose set forth.
2. In a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current through them, the combination with a closed tubular horizontal hollow body or chamber of refractory material, having an opening at its bottom, of electrodes arranged horizontally or nearly horizontally and projecting into said hollow body or chamber, the latter having a greater length than diameter, as and for the purpose set forth.
3. In a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current though them, the combination with a closed tubular horizontal hollow body or chamber of refractory material having an opening at its bottom, of electrodes containing substances which will produce at high temperatures highly-luminous vapors, and projecting into said hollow body or chamber, the latter having a greater length than diameter, as and for the purpose set forth.
4. In a device forproducing light by means of conducting light-emitting vapors kept incandescent by the passage of an'y electric current through them, the combination with a closed tubular horizontal hollow body or chamber of refractory material having an opening at its bottom, of electrodes arranged horizontally or nearly horizontally containing substances which will produce at high temperatures highly-luminous vapors, and projecting into said hollow body or chamber, the latter having a greater length than diameter as and for the purpose set forth.
5. In a device for producing light by means of conducting light-emitting vapors kept incandescent by the passage of an electric current through them, the combination with a closed tubular horizontal hollow body or chamber of refractory material having an opening at its bottom, of electrodes projecting into said hollow body or chamber, the latter hav- IOO PI O
ing a greater length than diameter, and of a ing a greater length than diameter,` and of a magnetic iield to act on the arc, as and for magnetic field to act on the are, consisting of the purpose set forth. y a sheet-iron case covering the hollow body 6. In a device for producing light by means and provided with windings excited by the I5 5 of conducting light-emitting vapors kept inmain current.
candescent by the passage of an electric cur- Iri Witness whereof I hereunto subscribe my rent through them, the combination with a name this 20th day of May A. D. 1903. closed tubular horizontal hollow body or cham- HERMANN VIERTEL. ber of refractory material having an opening Witnesses:
IO at its bottom, of electrodes projecting into ALvIs GOBANZ,
said hollow body or chamber, the latter hav- HENRY HAsrER.
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