US405239A - Apparatus for the manufacture of filaments for incandescent lamps - Google Patents

Apparatus for the manufacture of filaments for incandescent lamps Download PDF

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US405239A
US405239A US405239DA US405239A US 405239 A US405239 A US 405239A US 405239D A US405239D A US 405239DA US 405239 A US405239 A US 405239A
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receiver
carbons
carbon
lamp
circuit
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C16/00Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes
    • C23C16/44Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating
    • C23C16/46Chemical coating by decomposition of gaseous compounds, without leaving reaction products of surface material in the coating, i.e. chemical vapour deposition [CVD] processes characterised by the method of coating characterised by the method used for heating the substrate

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  • This invention relates to the mode of preparing carbons for incandescent electric lamps by condensing and building them up by the action of electricity upon a hydrocarbon vapor or other carbonaceous gases that deposit their carbon at high temperatures, as described by me in other applications for Letters Patent heretofore filed by me in the UnitedStates Patent Office; and the object of the present invention is to provide an efficient apparatus for the rapid, economical, and accurate accomplishment of this work.
  • B is an air-pump, which maybe of any ordinary construction suited to the work.
  • C is a bell-glass receiver, having its lower edge accurately fitted to the metallic plate D, although a rubber or other gasket may be used between the plate and the lip of the receiver.
  • E is an incandescent electric lamp of standard illuminating-power.
  • H is a gage in free communication by a pipe with the receiver.
  • K is a vessel containing gasoline or some other highly-volatile hydrocarbon and having a connection with the receiver through the tube L.
  • This pipe may be opened and closed by the cock M.
  • the pipe also, that connects the pump with the gage and the receiver has a cock N, by which it may be opened and closed.
  • Within the receiver there is arranged, on some suit-able support electrically connected with the plate D, any convenient number of clips for holding the carbons c c c.
  • ' P is a switch-board having a switch for each carbon in the receiver and one for the lamp E.
  • R R are the positive and negative Wires of the main circuit supplied from any available source of electrical energy. wires leads to the switch-board and the other to the metallic base-plate of the receiver.
  • the clips in the receiver are arranged in pairs, one clip of each pair being electrically connected through the plate-D with one of the main wires of the circuit, and the other clip being insulated from such plate, but electrically connected through a wire leading to the switch-board with the other main wire of the circuit.
  • the carbons to be treated are arranged as shown in the drawing, one carbon to each pair of clips, the carbons being inserted so as to form an electrical connection between the two clips.
  • each carbon-holder of One of these base-plate of the receiver, andthe other of bons are arranged in parallel series in co-ordinate'branches between the main wires of the circuit, and according to the adjustment of the switches at the will of the operator the current can be caused to flow through all the carbons simultaneously or through any specific number less than all.
  • the lamp E is arranged in a similar manner-that is, in a branch between the main wires-+the standard G, forming oneot the conductors, leading to the lamp and the wire S the other.
  • the carbons to be treated should be of substantially the same size as that of the standard lamp, but of a higher resistance.
  • the operation is as follows: The air and occluded gases are first to beremoved from the receiver as perfectly as practicable, after which, on opening the cock M, the vapor.
  • each carbon-hold er should have a shuntcircuit, so that when any particular carbon is switched out of circuit its shunt will simultaneously be closed and thus permit the free flow of the current to and through the remaining carbons of the series.
  • a photometer of any suitable construction may be used.
  • the well-known Bunsen photometer consisting of a sheet of paper having a spot oiled, suitably mounted midway between the lamp and the carbon to be compared, will be found convenient for this purpose.
  • the carbons under the receiver maybe subjected to the action of a constant or uniform electric current and the changing intensity of light developed in them, as the decomposition of the gas proceeds, be compared with any standard light-as, for example, an ordinary Carcel burnerwholly disconnected with the circuit.
  • the standard of comparison is an electric lamp placed in the circuit, in the manner above described, since the uniform current proposed is a current capable of developing a uniform light of given intensity in a standard lamp.
  • the photometer may be used; in fact, it will in this case be specially useful if the standard light with which the carbons are to be compared is of a different intensity from that to which it is sought to bring the carbons.
  • each carbon might be under a separate receiver, the connections with a a common circuit and a common air-pump being preserved; but such a construction of the apparatus would be less convenient than where a common receiver is employed for the several carbons.
  • a receiver adapted to be supplied with a hydrocarbon or equivalent gas and containing two or more carbon holders or clips, each of which is providedwith a switch controlling its connection with the circuit, substantially as and for the purpose set forth.

Description

(No Model.)
H. S. MAXIM. APPARATUS FOR THE MANUFACTURE OF PILAMENTS FOR INGANDESGENT LAMPS.
Patented June 11, 1889.
v a Q 6 R R1 m a N. PETERS. Phohrljthngruphan Wanhlngtun. B C
UNITED STATES PATENT OFFICE.
HIRAM S. MAXIM, OF BROOKLYN, NEWV YORK.
APPARATUS FOR THE MANUFACTURE OF FILAMENTS FOR INCANDESCENT LAMPS.
SPECIFICATION forming part of Letters Patent No. 405,239, dated June 11, 1889.
A Application filed February 21,1881. Serial No. 26,691. (No model.)
To all whom it may concern:
Be it known that I, HIRAM S. MAXIM, of the city of Brooklyn, in the county of Kings and State of New York, have invented a new and useful Apparatus for the Preparation of Carbons for Electric Lamps, of which the following is a specification.
This invention relates to the mode of preparing carbons for incandescent electric lamps by condensing and building them up by the action of electricity upon a hydrocarbon vapor or other carbonaceous gases that deposit their carbon at high temperatures, as described by me in other applications for Letters Patent heretofore filed by me in the UnitedStates Patent Office; and the object of the present invention is to provide an efficient apparatus for the rapid, economical, and accurate accomplishment of this work.
The invention is fully illustrated in the accompanying drawing, showing the apparatus in perspective, in which A is a stand of wood, on which the principal parts of the-apparatus are mounted.
B is an air-pump, which maybe of any ordinary construction suited to the work.
C is a bell-glass receiver, having its lower edge accurately fitted to the metallic plate D, although a rubber or other gasket may be used between the plate and the lip of the receiver. r
E is an incandescent electric lamp of standard illuminating-power.
F is an ordinary Bunsen photometer mounted on the upright G midway between the lamp E and the carbons placed within the receiver 0. Y
H is a gage in free communication by a pipe with the receiver.
K is a vessel containing gasoline or some other highly-volatile hydrocarbon and having a connection with the receiver through the tube L. This pipe may be opened and closed by the cock M. The pipe, also, that connects the pump with the gage and the receiver has a cock N, by which it may be opened and closed. Within the receiver there is arranged, on some suit-able support electrically connected with the plate D, any convenient number of clips for holding the carbons c c c.
' P is a switch-board having a switch for each carbon in the receiver and one for the lamp E.
R R are the positive and negative Wires of the main circuit supplied from any available source of electrical energy. wires leads to the switch-board and the other to the metallic base-plate of the receiver.
The clips in the receiver are arranged in pairs, one clip of each pair being electrically connected through the plate-D with one of the main wires of the circuit, and the other clip being insulated from such plate, but electrically connected through a wire leading to the switch-board with the other main wire of the circuit. The carbons to be treated are arranged as shown in the drawing, one carbon to each pair of clips, the carbons being inserted so as to form an electrical connection between the two clips.
Instead of making each carbon-holder of One of these base-plate of the receiver, andthe other of bons are arranged in parallel series in co-ordinate'branches between the main wires of the circuit, and according to the adjustment of the switches at the will of the operator the current can be caused to flow through all the carbons simultaneously or through any specific number less than all. The lamp E is arranged in a similar manner-that is, in a branch between the main wires-+the standard G, forming oneot the conductors, leading to the lamp and the wire S the other. The carbons to be treated should be of substantially the same size as that of the standard lamp, but of a higher resistance.
The operation is as follows: The air and occluded gases are first to beremoved from the receiver as perfectly as practicable, after which, on opening the cock M, the vapor.
cury will sufficethe current is to be sent simultaneously through the carbons and through the lamp. The higher resistance of the carbons will cause them at first to give oif a light of less intensity than that of the lamp, but gradually, as the carbonaceous gas in the receiver is decomposed and the carbonconductors are correspondingly condensed and built up by the fine carbon deposited in i and upon them, their resistance falls, and a larger amount of the current passes through them and the light increases. As fast as they are seen to approach the light of the standard lamp, they are to be switched out of circuit, after which by again closing the switches one by one each carbon maybe taken up separately and further treated until its lightgiving power is made equal to that of the standard.
Instead of arranging the carbon holders or clips and the standard lamp in parallel series, as above described, they may also, without departing from the principle of the invention, bear-ranged in consecutive series; but in such case each carbon-hold er should have a shuntcircuit, so that when any particular carbon is switched out of circuit its shunt will simultaneously be closed and thus permit the free flow of the current to and through the remaining carbons of the series.
In order to aid the eye in making an accurate comparison of the lights, a photometer of any suitable construction may be used. The well-known Bunsen photometer, consisting of a sheet of paper having a spot oiled, suitably mounted midway between the lamp and the carbon to be compared, will be found convenient for this purpose.
By the foregoing means great accuracy of results can be attained and the work can be rapidly done and a corresponding economy effected, since as many carbons can be treated simultaneously as can be grouped under one receiver. The production of the first vac uum a single operation for all the carbons; so, also, with the introduction of the hydrocarbon gas into the vacuum; and so, likewise, the electric treatment of the carbons, all except the finishing step in the process.
Instead of using a lamp of standard illuminating-power placed in the circuit, as shown in the drawing, the carbons under the receiver maybe subjected to the action of a constant or uniform electric current and the changing intensity of light developed in them, as the decomposition of the gas proceeds, be compared with any standard light-as, for example, an ordinary Carcel burnerwholly disconnected with the circuit. This would involve the same general principle as where the standard of comparison is an electric lamp placed in the circuit, in the manner above described, since the uniform current proposed is a current capable of developing a uniform light of given intensity in a standard lamp. In this case, also, the photometer may be used; in fact, it will in this case be specially useful if the standard light with which the carbons are to be compared is of a different intensity from that to which it is sought to bring the carbons.
It is plain that instead of grouping a number of carbons under a common receiver for the purpose of treating them electrically in an attenuated carbonaceous atmosphere, as above set forth, each carbon might be under a separate receiver, the connections with a a common circuit and a common air-pump being preserved; but such a construction of the apparatus would be less convenient than where a common receiver is employed for the several carbons.
What is claimed as new is 1. In combination wit-h an electric circuit and an air-pump, two or more carbon holders or clips arranged under a common receiver suitably supplied with a hydrocarbon or equivalent gas, substantially as and for the purpose set forth.
2. In combination with an electric circuit and an air-pump, a receiver adapted to be supplied with a hydrocarbon or equivalent gas and containing two or more carbon holders or clips, each of which is providedwith a switch controlling its connection with the circuit, substantially as and for the purpose set forth.
3. The combination of an electric circuit, a carbon-holder, a receiver for inclosing such holder and arranged to be provided with an atmosphere of hydrocarbon or equivalent gas for building up the carbon and changing its resistance, a standard light, and a photometer, substantially as and for the purpose set forth.
IIIIRAM MAXIM.
\Vitnesses:
SAML. A. DUNoAN, BENJ. A. SMITH.
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