US716889A - Electric lamp. - Google Patents

Electric lamp. Download PDF

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Publication number
US716889A
US716889A US6090801A US1901060908A US716889A US 716889 A US716889 A US 716889A US 6090801 A US6090801 A US 6090801A US 1901060908 A US1901060908 A US 1901060908A US 716889 A US716889 A US 716889A
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glower
lamp
heater
conductor
current
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US6090801A
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Marshall W Hanks
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63JDEVICES FOR THEATRES, CIRCUSES, OR THE LIKE; CONJURING APPLIANCES OR THE LIKE
    • A63J17/00Apparatus for performing colour-music

Definitions

  • My invention relates to electric lamps of the type in which the light-giving members are non-conductors when cold and become conductors only when heated to comparaistics which are substantially non-conductors of electricity under normal conditions and which become relatively good conductors when their temperatures are raised, either by externally-applied heat or by current, due to an increase of the potential at the terminals of such bodies.
  • the current-controlling bodies may be utilized either as heatore for raising the glowers to conducting temperatures or in series with heaters that are conductors under normal conditions of heat and electromotive force.
  • Figure 1 is a diagram of an electric circuit having a pinrality of lamps which are constructed in accordance with my invention.
  • Fig. 2 is a similar diagram illustrating a modification.
  • Fig. 1 the circuit 1 2 is supplied with energy from a geuerator 3, and in this circuit are connected in series a plurality of lamps 4, the number of which will obviously depend upon the amount of energy flowing in the circuit.
  • Each lamp 4 comprises one or more glowers 5, which are non-conductors at ordinary temperaturesand which become conductors when sufficiently heated.
  • a body 6 Located adjacent to each glower or set of glowers 5 and connected in parallel therewith is a body 6, the composition of which is such that it is substantially a non-conductor or, at least, a very poor conductor under the conditions which obtain when the glower is operating.
  • the electromotive force upon the terminals of the lamp prior to the lighting up of the glower, will cause current to travel through the body 6, which in this instance serves as a heater for the glower.
  • the electromotive force that is impressed upon the body 6 will cause sufficient current to pass through it to slightly raise its temperature, and such rise in temperature will increase the conductivity of the body, since it has a negative temperato re coefficient.
  • the increase of current with the increase of conductivity will be productive of suiiicient heat to raise the temperature of the glower to the conducting-point.
  • the glower becomes heated sufliciently to be conductive, a portion of the current will be shunted through it,and the current through the heater will therefore be correspondingly decreased and the potential difference between its terminals also decreased.
  • the glower will thus be heated to normal incandescence and the potential diiference on the heater will be reduced until it becomes so low that the heater will cease to take any substantial quantity of current. If the glower should be broken, the potential difference on the heater would instantly rise until the heater would again take current, and thus take the place of the broken glowerand maintain the resistance of the circuit approximately constant.
  • each lamp 4 comprises a glower 5, a heater 7 of ordinaryconstruction, and a body 6, corresponding as regards the material of which it is composed and its operation to the heater 6. (Shown in Fig. 1.)
  • the operation of the lamps in this system is the same as that described in connection with 100 the system shown in Fig. 1, except that the bodies 6 are employed merely as controlling devices, instead of having the combined functions of controlling devices and heaters.
  • a mixture suitable for the controlling-bodies 6 consists of approximately fifty per cent. of magnesia, fifty per cent. of finely-powdered iron, a very small quantity of tragacanth as a binder to hold the materials together, and enough water to form a dough that may be molded into rods of the desired form and dimensions. While I have found this mixture to be suitable for use in the relations described, I do not intend to limit the invention either to the exact materials or to the proportions specified, it being sufficient for the purpose of my invention that the mixture employed shall be one which has substantially the operative characteristics hereinbefore set forth.
  • a glower and a body connected in parallel and out of contact therewith that is substantially a non-conductor of electricity when subjected to a difierence of potential that is less than the normal lamp-voltage and is a conductor when subjected to the normal lamp-voltage.
  • a glower In an electric lamp of the class described, a glower, a heater therefor and a body connected in series with the heater that is substantially a non-conductor of electricity when subjected to a diiference of potential that is below a certain critical amount and is a conductor when subjected to a difference of potential that is above such amount.
  • a plurality of lamps each of which comprises a glower and a body connected in parallel and out of contact therewith that is substantially a nonconductor of electricity when subjected to a diiference of potential that is below the normal lamp-voltage and is a conductor when subjected to the normal lamp-voltage.
  • a glower and a body located in proximity thereto but out of contact therewith and connected in parallel therewith that is substantially a non-conductor of electricity when subjected to a difierence of potential that is less than the normal lamp-voltage and is a conductor when subjected to the normal lampvoltage.
  • a glower and a controlling-body permanently connected in parallel and out of contact therewith that serves as a conductor for the current supplied to the lamp when the glower is not in service and becomes substantially nonconductive under the voltage to which it is subjected during the time that the glower is taking its normal current.

Description

P atgr 1t ed Dec. 30, i902.-
NO. "6,839. r
. M. W. HANKS. ELECTRIC L MP. A lication filed m 1a, 1901.;
(.flo Model.)
WITNESSES; mvsuron I m: mums mess co mm'oumu. wAswnam. n. a
.1 NITED STATES MARSHALL W. HANKS, OF PITTSBURG, PENNSYLVANIA, ASSIGNOR TO GEORGE WESTINGHOUSE, OF PITTSBURG, PENNSYLVANIA.
ELECTRIC LAM P.
SPECIFICATION forming part of Letters Patent No. 716,889, dated December 30, 1902.
Application filed May 18, 1901. Serial No. 60,908. (No model) 1'0 00% whom it rnay'coficcrn: 7
Be it known that I, MARSHALL W. HANKs, a citizen of theUnited States, residing at Pittsburg, in the county of Allegheny and State of Pennsylvania, have invented a new and useful Improvement in Electric Lamps, of which the following is a specification.
My invention relates to electric lamps of the type in which the light-giving members are non-conductors when cold and become conductors only when heated to comparaistics which are substantially non-conductors of electricity under normal conditions and which become relatively good conductors when their temperatures are raised, either by externally-applied heat or by current, due to an increase of the potential at the terminals of such bodies.
In practicing my invention the current-controlling bodies may be utilized either as heatore for raising the glowers to conducting temperatures or in series with heaters that are conductors under normal conditions of heat and electromotive force.
Referring now tothe drawings, Figure 1 is a diagram of an electric circuit having a pinrality of lamps which are constructed in accordance with my invention. Fig. 2 is a similar diagram illustrating a modification.
In Fig. 1 the circuit 1 2 is supplied with energy from a geuerator 3, and in this circuit are connected in series a plurality of lamps 4, the number of which will obviously depend upon the amount of energy flowing in the circuit. Each lamp 4 comprises one or more glowers 5, which are non-conductors at ordinary temperaturesand which become conductors when sufficiently heated. Located adjacent to each glower or set of glowers 5 and connected in parallel therewith is a body 6, the composition of which is such that it is substantially a non-conductor or, at least, a very poor conductor under the conditions which obtain when the glower is operating. If the materials and dimensions of the glower 5 and body 6 are properly determined, however, the electromotive force upon the terminals of the lamp, prior to the lighting up of the glower, will cause current to travel through the body 6, which in this instance serves as a heater for the glower. When the lamp is first connected in circuit, the electromotive force that is impressed upon the body 6 will cause sufficient current to pass through it to slightly raise its temperature, and such rise in temperature will increase the conductivity of the body, since it has a negative temperato re coefficient. The increase of current with the increase of conductivity will be productive of suiiicient heat to raise the temperature of the glower to the conducting-point. Then the glower becomes heated sufliciently to be conductive, a portion of the current will be shunted through it,and the current through the heater will therefore be correspondingly decreased and the potential difference between its terminals also decreased. The glower will thus be heated to normal incandescence and the potential diiference on the heater will be reduced until it becomes so low that the heater will cease to take any substantial quantity of current. If the glower should be broken, the potential difference on the heater would instantly rise until the heater would again take current, and thus take the place of the broken glowerand maintain the resistance of the circuit approximately constant.
In Fig. 2 each lamp 4 comprises a glower 5, a heater 7 of ordinaryconstruction, and a body 6, corresponding as regards the material of which it is composed and its operation to the heater 6. (Shown in Fig. 1.) The operation of the lamps in this system is the same as that described in connection with 100 the system shown in Fig. 1, except that the bodies 6 are employed merely as controlling devices, instead of having the combined functions of controlling devices and heaters.
I have found that a mixture suitable for the controlling-bodies 6 consists of approximately fifty per cent. of magnesia, fifty per cent. of finely-powdered iron, a very small quantity of tragacanth as a binder to hold the materials together, and enough water to form a dough that may be molded into rods of the desired form and dimensions. While I have found this mixture to be suitable for use in the relations described, I do not intend to limit the invention either to the exact materials or to the proportions specified, it being sufficient for the purpose of my invention that the mixture employed shall be one which has substantially the operative characteristics hereinbefore set forth.
I claim as my invention- 1. In an electric lamp of the class described,
a glower and a body connected in parallel and out of contact therewith that is substantially a non-conductor of electricity when subjected to a difierence of potential that is less than the normal lamp-voltage and is a conductor when subjected to the normal lamp-voltage.
2. In an electric lamp of the class described, a glower, a heater therefor and a body connected in series with the heater that is substantially a non-conductor of electricity when subjected to a diiference of potential that is below a certain critical amount and is a conductor when subjected to a difference of potential that is above such amount.
3. In an electric circuit, a plurality of lamps, each of which comprises a glower and a body connected in parallel and out of contact therewith that is substantially a nonconductor of electricity when subjected to a diiference of potential that is below the normal lamp-voltage and is a conductor when subjected to the normal lamp-voltage.
4. In an electric lamp of the class described, a glower and a body located in proximity thereto but out of contact therewith and connected in parallel therewith that is substantially a non-conductor of electricity when subjected to a difierence of potential that is less than the normal lamp-voltage and is a conductor when subjected to the normal lampvoltage.
5. In an electric lamp of the class described, a glower and a controlling-body permanently connected in parallel and out of contact therewith that serves as a conductor for the current supplied to the lamp when the glower is not in service and becomes substantially nonconductive under the voltage to which it is subjected during the time that the glower is taking its normal current.
In testimony whereof I have hereunto subscribed my name this th day of May, 1901.
MARSHALL W. HANKS.
Witnesses:
. JAMES B. YOUNG,
WESLEY G. CARR.
US6090801A 1901-05-18 1901-05-18 Electric lamp. Expired - Lifetime US716889A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3202870A (en) * 1962-02-09 1965-08-24 Hugh R Carlon Automatic glower supply
US5743631A (en) * 1995-05-11 1998-04-28 Bigham; James R. Light bar heater

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3202870A (en) * 1962-02-09 1965-08-24 Hugh R Carlon Automatic glower supply
US5743631A (en) * 1995-05-11 1998-04-28 Bigham; James R. Light bar heater

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