US289456A - sheehy - Google Patents

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US289456A
US289456A US289456DA US289456A US 289456 A US289456 A US 289456A US 289456D A US289456D A US 289456DA US 289456 A US289456 A US 289456A
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tube
filament
carbon
glass
lamp
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01KELECTRIC INCANDESCENT LAMPS
    • H01K1/00Details
    • H01K1/02Incandescent bodies
    • H01K1/14Incandescent bodies characterised by the shape

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  • My invention relates to that form of electric lamp in which a filament of carbon or other material is heated to incandescence by the passage of an electric current, said filament being contained within a sealed chamber of transparent materialfrom which the air has been extracted.
  • I11 particular my invention relates to the shaping of said filament, to the shape and construction of said chamber, and to the centering of said filament within said chamber. If the ends of a/carbon filament are brought together, the filament, having more or less elasticity, will assume the form of a curve. If, then, the carbon be slightlytwisted on its own axis, a compound curve may be produced. Further, in the manufacture of such filaments, it is possible to give them curvilinear shapes, to which they will more or less return if temporarily extended or stretched.
  • I giveto the filament (either in the course of manufacture or by subjecting it to tension after completion) a shape preferably of a sinuous nature, and in place of the bulb'or globe commonly employed I make use of a tube of uniform caliber, curved and twisted to exactly conform with the filament, in order that when said filament has been introduced and its ends have been firmly united within the tube it (the said filament) will be coincident throughout its length with the axial line of said tube.
  • the ends of the filament are united to metallic conductors, the glass is molded about the entrance of these conductors, and the air is extracted from the tube by means of an opening, which is subsequently hermetically sealed.
  • the complete lamp thus formed is attached to a support or bracket by mechanism to be hereinafter described.
  • a lamp constructed on the above principles possesses, among others, the following advantages:
  • the liability of breakage is decreased in consequence of the small diameter of the tube as compared with that of the bulbs or' globes heretofore made use 6f the light, giving capacity of the lamp is in creased by having less glass to penetrate. Further, by using the tube in place of a globe or bulb, all portions of the glass are uniformly heated,
  • FIG. 4 is a perspective view of the lamp shown in Fig. 1, bent so that the light may pass downward without obstruction.
  • the carbon filament B is given an appropriate shape, preferably of a sinuous nature, as shown in Fig. 3, such that when viewed in any direction it will appear to be curved.
  • Such a shape may be obtained by availing of the elasticity of the filament or by previously forming it during the process of manufacture in such, shape that, while admitting of its introduction into the tube, it will, by reason of its elasticity, reassume approximately its original shape when once inserted.
  • the tube A is molded to conform thereto, so th at the filament will be exactly centered within the tube, or, in other words, that the axis of the filament shall be coincident with the axial line of the tube.
  • the heating effects on all parts of the glass will thusbe very nearly equalized.
  • the metallic conductors G and O are united with the ends of the filament by any of the well-known processes.
  • the obj ect of which is to provide a means by which the deposits of carbon may be erased from the inner surface of the tube by simply turning the tube and allowing it (the vitreous 7 material) to rub or scrape uponthe inner surface.
  • the ends of the tube are cemented together, as at D, when in a molten condition, the conductors O and 0 having egress at the points E and E
  • the neck D is connected in any well-known manneras by a screw, I to alhandle, G.
  • the neck D traverses an opening in the bracket or support H, the line-conductors being introduced into said support at points J and J so that in turning the handle '1 ⁇ the conductors G and C may be brought into contact with the line-conductors J J or such contact may bebroken at will.

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Description

(No Model.) I
- R." J. SHEEI-IY.
INGANDESOENT ELEGTRIG LAMP Y No. 289,456, Patented Dec. 4. 1883'.
A ll l INVENTOR Q Robert JAY/a28 By his .flltorneys 1 UNITED STATES PATE T Prion.
ROBERT J. SHEEHY, OF NET/V YORK, N. Y.-
INCANDESCENT ELECTRIC LAMP.
SPECIFICATION forming part of Letters Patent No. 289,456, dated December 4, 1883.
Application filed December 15, 1ss2. (No model.)
To all whom it may concern.-
Be it known that I, Romance J. SHEEHY, a citizen of the United States, residing in the city, county, and State of New York, have invented certain new and useful Improvements in Incandescent Electric Lamps, of which the following is a specification,
My invention relates to that form of electric lamp in which a filament of carbon or other material is heated to incandescence by the passage of an electric current, said filament being contained within a sealed chamber of transparent materialfrom which the air has been extracted.
I11 particular my invention relates to the shaping of said filament, to the shape and construction of said chamber, and to the centering of said filament within said chamber. If the ends of a/carbon filament are brought together, the filament, having more or less elasticity, will assume the form of a curve. If, then, the carbon be slightlytwisted on its own axis, a compound curve may be produced. Further, in the manufacture of such filaments, it is possible to give them curvilinear shapes, to which they will more or less return if temporarily extended or stretched. Availing of these principles, I giveto the filament (either in the course of manufacture or by subjecting it to tension after completion) a shape preferably of a sinuous nature, and in place of the bulb'or globe commonly employed I make use of a tube of uniform caliber, curved and twisted to exactly conform with the filament, in order that when said filament has been introduced and its ends have been firmly united within the tube it (the said filament) will be coincident throughout its length with the axial line of said tube. The ends of the filament are united to metallic conductors, the glass is molded about the entrance of these conductors, and the air is extracted from the tube by means of an opening, which is subsequently hermetically sealed. The complete lamp thus formed is attached to a support or bracket by mechanism to be hereinafter described.
A lamp constructed on the above principles possesses, among others, the following advantages: The liability of breakage is decreased in consequence of the small diameter of the tube as compared with that of the bulbs or' globes heretofore made use 6f the light, giving capacity of the lamp is in creased by having less glass to penetrate. Further, by using the tube in place of a globe or bulb, all portions of the glass are uniformly heated,
which decreases the liability to breakage, and
by applying my method of shaping both the carbon and tube I am enabled to give to the' lamp an illuminating capacity approximately equal in all directions.
My invention is set forth in the accompanying drawings, in which Figures 1, 2, and 3 exhibit different forms of my tube-lamp. Fig. 4 is a perspective view of the lamp shown in Fig. 1, bent so that the light may pass downward without obstruction.
Similar letters of reference have been applied to the same parts appearing in the different figures.
I Referring to the figures, Arepresents atube of glass of the requisite thickness and diameter to withstand the action of the heat which is to be generated within it. The carbon filament B is given an appropriate shape, preferably of a sinuous nature, as shown in Fig. 3, such that when viewed in any direction it will appear to be curved. Such a shape may be obtained by availing of the elasticity of the filament or by previously forming it during the process of manufacture in such, shape that, while admitting of its introduction into the tube, it will, by reason of its elasticity, reassume approximately its original shape when once inserted. The shape of the carbon having been thus determined, the tube A is molded to conform thereto, so th at the filament will be exactly centered within the tube, or, in other words, that the axis of the filament shall be coincident with the axial line of the tube. The heating effects on all parts of the glass will thusbe very nearly equalized. The tube having been thus prepared,the carbon filament is introduced, ad-
vantage being taken of its elasticity when cold, or of its flexibility during the passage of the heating-current. The metallic conductors G and O are united with the ends of the filament by any of the well-known processes. Before sealing the ends of the tube I introduce asmall quantity of sand orfinelyedividedvitreous material, the obj ect of which is to provide a means by which the deposits of carbon may be erased from the inner surface of the tube by simply turning the tube and allowing it (the vitreous 7 material) to rub or scrape uponthe inner surface. The ends of the tube are cemented together, as at D, when in a molten condition, the conductors O and 0 having egress at the points E and E The neck D is connected in any well-known manneras by a screw, I to alhandle, G. The neck D traverses an opening in the bracket or support H, the line-conductors being introduced into said support at points J and J so that in turning the handle '1} the conductors G and C may be brought into contact with the line-conductors J J or such contact may bebroken at will. To insure perfect position, I make use of a spring, K, which,with every quarter-revolution, enters a slight depression or indentation, L, in the neck, and operates to retain the neck more or less in the required position. To extractthe air from the tube, I prefer to leave an opening at the point M, at which place the glass may be preferably somewhat thicker than the remainder before set forth, of a curved tube of glass or other transparent material and an illuminating conductor or filament of carbontraversing the axial line of said tube.
2. The combination, substantially as hereinbefore set forth, of a tube of glass' or other transparent material, having a curved proj ection when viewed in any direction, and a filament of carbon or other illuminating-conductor traversing the'aXial line of said tube.
3. The combination, substantially as hereinbefore set forth, of a tube of glass or other transparent material, a filament of carbon or other conducting material traversing said tube axially, and a common neck to which both ends of said tube are welded.
4. The combination, substantially as hereinbefore set forth, of a tube, a filament of carbon within said tube, a common neck to which both ends of said tube are welded, a system of electrodes carried by said neck, and a handle whereby said neck may be revolved.
- In testimony whereof I have hereunto subscribed my name this 9th day of December, A: D. 1882.
ROBERT J. SIIEEHY.
Witnesses:
DANIEL Vi". EDGEooMn, CHARLES A. TERRY.
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