US2256249A - Electric discharge apparatus - Google Patents

Electric discharge apparatus Download PDF

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Publication number
US2256249A
US2256249A US316324A US31632440A US2256249A US 2256249 A US2256249 A US 2256249A US 316324 A US316324 A US 316324A US 31632440 A US31632440 A US 31632440A US 2256249 A US2256249 A US 2256249A
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Prior art keywords
arm
heater
electrodes
switch
electric discharge
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Expired - Lifetime
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US316324A
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Norman L Harris
Robert H Kirkness
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General Electric Co
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General Electric Co
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B41/00Circuit arrangements or apparatus for igniting or operating discharge lamps
    • H05B41/02Details
    • H05B41/04Starting switches
    • H05B41/06Starting switches thermal only

Definitions

  • Our invention relates to, gaseous electric discharge devices such as electric discharge lamps having thermionic electrodes adapted to be preheated to an electron emitting temperature before the application of the starting voltage. More particularly our invention relates to the apparatus by which the electrodes at starting are given the desired preheat and by which the starting voltage is then applied to the device.
  • One object of our apparatus is to provide improved apparatus of this character which will provide for the necessary time delay in the application of the starting voltage to insure an adequate initial heating of the electrodes and Will also provide for a quick resetting of the apparatus in the event of a momentary interruption of the power supply.
  • Other objects and advantages of our invention will appear as the description proceeds.
  • l is an electric discharge device such as a discharge lamp having the thermionic electrodes 2 and 2 at the ends thereof. These electrodes which are shown as filamentary require a preheating to an electron emitting temperature before the starting voltage is applied to the lamp.
  • the lamp is connected for operation from the source 3 of alternating current supply which for example may be a 60 cycle lighting circuit.
  • the connections of the lamp with the source of supply are shown as comprising the conductor 4 including the control switch 4 connected with one end (the upper end) of the electrode 2 and the conductor 5 which connects through the ballast reactor 6 and other apparatus to be described later, with one end (the upper end) of the electrode 2'.
  • the electrodes 2 and 2 For supplying the electrodes 2 and 2 with heating current to produce the initial or preheating thereof we connect together the opposite or lower ends of the electrodes with a shortcircuiting switch having the two movable contacts l and 8. These contacts, as shown by the drawing, are carried-by the free ends of the two bimetallic arms I! and H respectively, the construction of the arms being such that at normal or room temperature the contacts I and 8 engage each other and when the two arms are heated they move in the same direction, namely to the right in the present example as indicated by the arrow.
  • the arm lll is connected with the other end (the lower end) of the electrode 2 through the resistance heater I2 which is in thermal relation with the arm and preferably is in the form of a coil surrounding the arm as represented by the drawing.
  • the resistance heater [3 which also preferably is in the form of a coil surrounding that arm.
  • the heater [3 is included in the connection 5 with the electrode 2, it being shown as arranged between the electrode and the ballast reactor 6.
  • the contact stop [5 Spaced from the arm I0 is the contact stop [5 whose purpose is to limit the movement to the right of the arm I U and contact 1 carried thereby.
  • the stop I5 is adapted to make electrical contact with the arm l0 and is connected with that end of the heater I2 which connects with the electrode 2.
  • the above described apparatus comprising the bimetallic arms, the contacts carried thereby, the two heaters and the stop preferably are enclosed in the sealed envelope I6 which may be evacuated or filled with a suitable gas, the arms, the stop and the electrical connections being anchored in the base thereof.
  • the stop l5 may be bimetallic like the arms l0 and H whereby the limitation it imposes on the movement of I0 is substantially independent of the ambient temperatures.
  • the arm H] may be slightly displaced from the cold position by the heat derived from the heater l3 but such displacement will never be sufficient to cause that arm to reach the stop 15 while the heater I2 is deenergized. Under certain circumstances the stop l5 may not be connected with the heater l2,
  • an electric discharge device connected to be operated from a source of alternating current supply and provided with thermionic electrodes, a re sistance heater in said connection, a switch connected between said electrodes for controlling the flow of initial heating current therethrough, a resistance heater in series with said switch between said electrodes, a separate heat responsive device associated with each of said heaters for -moving each contact of said switch in the same direction in response to heat and means for limiting the movement of that switch contact which is controlled by said last mentioned heater whereby the switch opens.

Landscapes

  • Thermally Actuated Switches (AREA)
  • Circuit Arrangements For Discharge Lamps (AREA)

Description

Sept. 16, 1941. N, L. HARRIS ETAL 2,256,249
ELECTRIC DISCHARGE APPARATUS Filed Jan. SO, 1940 Inventors:
Norman 1... Harris, Robert H. Kirkness,
Them Attorneg.
Patented Sept. 16, 1941 ELECTRIC DISCHARGE APPARATUS Norman L. Harris and Robert H. Kirkness,
Wembley, England, assignors to General Electric Company, a corporation of New York Application January 30, 1940, Serial No. 316,324 In Great Britain February 14, 1939 3 Claims.
Our invention relates to, gaseous electric discharge devices such as electric discharge lamps having thermionic electrodes adapted to be preheated to an electron emitting temperature before the application of the starting voltage. More particularly our invention relates to the apparatus by which the electrodes at starting are given the desired preheat and by which the starting voltage is then applied to the device. One object of our apparatus is to provide improved apparatus of this character which will provide for the necessary time delay in the application of the starting voltage to insure an adequate initial heating of the electrodes and Will also provide for a quick resetting of the apparatus in the event of a momentary interruption of the power supply. Other objects and advantages of our invention will appear as the description proceeds.
Our invention will be better understood from the following description taken in connection with the accompanying drawing and its scope will be pointed out in the appended claims.
' In the single figure of the drawing which illustrates oneembodiment of our invention, l is an electric discharge device such as a discharge lamp having the thermionic electrodes 2 and 2 at the ends thereof. These electrodes which are shown as filamentary require a preheating to an electron emitting temperature before the starting voltage is applied to the lamp. The lamp is connected for operation from the source 3 of alternating current supply which for example may be a 60 cycle lighting circuit. The connections of the lamp with the source of supply are shown as comprising the conductor 4 including the control switch 4 connected with one end (the upper end) of the electrode 2 and the conductor 5 which connects through the ballast reactor 6 and other apparatus to be described later, with one end (the upper end) of the electrode 2'.
For supplying the electrodes 2 and 2 with heating current to produce the initial or preheating thereof we connect together the opposite or lower ends of the electrodes with a shortcircuiting switch having the two movable contacts l and 8. These contacts, as shown by the drawing, are carried-by the free ends of the two bimetallic arms I!) and H respectively, the construction of the arms being such that at normal or room temperature the contacts I and 8 engage each other and when the two arms are heated they move in the same direction, namely to the right in the present example as indicated by the arrow. The arm lllis connected with the other end (the lower end) of the electrode 2 through the resistance heater I2 which is in thermal relation with the arm and preferably is in the form of a coil surrounding the arm as represented by the drawing. Likewise, in thermal relation to the arm H is the resistance heater [3 which also preferably is in the form of a coil surrounding that arm. The heater [3 is included in the connection 5 with the electrode 2, it being shown as arranged between the electrode and the ballast reactor 6. Spaced from the arm I0 is the contact stop [5 whose purpose is to limit the movement to the right of the arm I U and contact 1 carried thereby. The stop I5 is adapted to make electrical contact with the arm l0 and is connected with that end of the heater I2 which connects with the electrode 2. The above described apparatus comprising the bimetallic arms, the contacts carried thereby, the two heaters and the stop preferably are enclosed in the sealed envelope I6 which may be evacuated or filled with a suitable gas, the arms, the stop and the electrical connections being anchored in the base thereof. The stop l5 may be bimetallic like the arms l0 and H whereby the limitation it imposes on the movement of I0 is substantially independent of the ambient temperatures.
When the switch 4' is closed to energize the apparatus from the source 3 the voltage of which is too low to start the discharge in the lamp heating current initially flows through the electrode 2, heater l2, arm l0, contacts 1, 8. arm ll, electrode 2', heater I 3 and reactor 6. While the electrodes are heating, the arms 10 and H are both deflected to the right, the contacts 1 and 8 remaining in engagement with each other. By the tinie that the electrodes have reached approximatelyktheir desired temperature for the application of the starting voltage the arm l0 engages the stop [5 which limits its further movement while not preventing the continued movement of the arm II. The contact thus made between the arm 10 and the stop l5 shortcircuits the heater l2 whereupon the arm l0 begins to cool and to return toward its original position. Contacts 1 and 8 accordingly separate whereupon an inductive kick is applied across the lamp sufficient to start the discharge therein, Because of the separation of the contacts I and B the arm l0 continues to cool toward its normal temperature. The arm ll, however, still receives heat from its heater inasmuch as that heater is traversed by the discharge current of the lamp during its operation. Contacts 1 and 8 therefore are maintained separated during the normal operation of the lamp.
Should an interruption of appreciable length of time occur in the supply voltage both bimetallic arms by cooling to room temperature will have returned to positions at which the contacts carried thereby again engage each other ready for a repetition of the above described starting operation. Should interruption in the supply voltage be only momentary although long enough for the lamp to have become deionized and hence to be unable to restart instantly, the arm H being no longer heated has merely to cool suiiiciently to move its contact 8 into engagement with contact .1 to cause a repetition of the starting operation of the lamp,
An advantage obtained by the above described apparatus over previously constructed apparatus of this character is that the movement of the arm II which opens the switch, being fixed by the position of the stop l5, can be made much less than the maximum movement thereof. Hence, the parts can be so arranged that the contacts are kept separated by the smallest discharge current that is likely to occur without incurring the danger that should the supply voltage be abnormally high the contacts'would open before the electrodes would become suiliciently heated. A further advantage is that the contacts once separated cannot meet again except in the normal starting position so long as the very short period required for arm H) to cool down has elapsed since the previous separation. In certain other forms of switches of this character if the supply voltage is momentarily interrupted even after a long period of running the contacts, having separated, are apt to meet again in a position removed from the ordinary starting position whereby irregularities are caused in the operation.
In the above described apparatus the arm H] may be slightly displaced from the cold position by the heat derived from the heater l3 but such displacement will never be sufficient to cause that arm to reach the stop 15 while the heater I2 is deenergized. Under certain circumstances the stop l5 may not be connected with the heater l2,
' satisfactory operation being obtained without short-circuiting that heater as long as the stop I5 is sufficiently rigid to limit the movement of the arm when it is heated.
What we claim as new and desire to secure by Letters Patent of the United States is:
1. In electric discharge apparatus comprising an electric discharge device connected to be operated from a source of alternating current supply and provided with thermionic electrodes, a re sistance heater in said connection, a switch connected between said electrodes for controlling the flow of initial heating current therethrough, a resistance heater in series with said switch between said electrodes, a separate heat responsive device associated with each of said heaters for -moving each contact of said switch in the same direction in response to heat and means for limiting the movement of that switch contact which is controlled by said last mentioned heater whereby the switch opens.
2. In electric discharge apparatus comprising an electric discharge device connected to be operated from a source of alternating current supply and provided with thermionic electrodes, a resistance heater in said connection, a switch having a separate bimetallic member for moving each contact thereof, the contacts being moved in the same direction by the heating of said members, said switch being connected between said electrodes for controlling the flow of initial heating current therethrough, a resistance heater in series with said switch between said electrodes and in heating relation with one of said members, the other of said members being in heating relation with said first mentioned heater, and a stop for limiting the movement of that' switch contact controlled by the second mentioned heater whereby the switch is opened by the continued movement of= the other contact and is held open during the operation of the device.
3. In electric discharge apparatus comprising an electric discharge device connected to be operated from a source of alternating current supply and provided with thermionic electrodes, a resistance heater in said connection, a switch having a separate bimetallic member for moving each contact thereof, the contacts being moved in the same direction by the heating of said members, said switch being connected between said electrodes for controlling the flow of initial heating current therethrough, a resistance heater in series with said switch between said electrodes and in heating relation with one of said members, the other of said members being in heating relation with said first mentioned member, a contact stop arranged to engage that switch contact which is controlled by the second mentioned heater and to limit the movement thereof and a NORMAN L. HARRIS. ROBERT H. KIRKNESS.
US316324A 1939-02-14 1940-01-30 Electric discharge apparatus Expired - Lifetime US2256249A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2427741A (en) * 1943-10-28 1947-09-23 Gen Electric Thermal switch
US2439976A (en) * 1942-08-05 1948-04-20 Boucher And Keiser Company Fluorescent lamp circuit
US2484112A (en) * 1944-09-29 1949-10-11 Metals & Controls Corp Time-delay circuit controller
US2513840A (en) * 1949-12-12 1950-07-04 Berland Morton Quick starting arrangement for fluorescent lamps
DE3236852A1 (en) * 1981-12-29 1983-07-14 Matsushita Electric Works, Ltd., Kadoma, Osaka IGNITION DEVICE FOR DISCHARGE LAMPS

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2439976A (en) * 1942-08-05 1948-04-20 Boucher And Keiser Company Fluorescent lamp circuit
US2427741A (en) * 1943-10-28 1947-09-23 Gen Electric Thermal switch
US2484112A (en) * 1944-09-29 1949-10-11 Metals & Controls Corp Time-delay circuit controller
US2513840A (en) * 1949-12-12 1950-07-04 Berland Morton Quick starting arrangement for fluorescent lamps
DE3236852A1 (en) * 1981-12-29 1983-07-14 Matsushita Electric Works, Ltd., Kadoma, Osaka IGNITION DEVICE FOR DISCHARGE LAMPS

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