Claims
- 1. A self ballasted lamp, comprising:
- an arc tube of the type having a pair of electrodes and a starting coil;
- a filament coil connected in series with said arc tube, said filament coil forming a ballast for the arc tube;
- a temperature responsive switch connecting the starting coil in series with the filament coil at temperatures below a predetermined level; and
- a fuseable conducting element connected across the temperature responsive switch, wherein said fuseable element provides a series connection between the filament coil and the starting coil until the element is melted and separated by the application of a predetermined voltage to said lamp.
- 2. A self ballasted lamp as described in claim 1, in which the predetermined voltage at which the element fuses is less than rated voltage of the lamp.
- 3. A self ballasted lamp as described in claim 1, in which the fuseable element comprises a fuse wire.
- 4. A self ballasted lamp as described in claim 1, in which the fuseable element melts when approximately 97 volts are applied to the lamp.
- 5. A self ballasted lamp as described in claim 3, in which the fuse wire comprises steel mandrel wire.
- 6. A self ballasted lamp as described in claim 5, wherein the steel mandrel wire has a thickness of 5.45 mils.
- 7. A self ballasted lamp as described in claim 1, in which the temperature responsive switch comprises a bimetal.
- 8. A self ballasted lamp as described in claim 1, in which the temperature responsive switch opens at approximately 150.degree.F.
- 9. A self ballasted lamp as described in claim 1, in which the arc tube is a mercury vapor lamp.
- 10. A self ballasted lamp as described in claim 1, in which the filament coil is formed of tungsten.
- 11. A method for processing a self-ballasted lamp of the type having an arc discharge tube and a resistive filament mounted within the lamp envelope and including a temperature responsive switch in series with said resistive filament comprising the steps of:
- a. connecting a fusible conducting element across said temperature responsive switch for providing a series connection between said filament coil during lamp processing; and
- b. causing said fusible conducting element to melt by the application of a sufficient voltage to said filament coil.
- 12. A method for processing a self-ballasted lamp of the type having an arc discharge tube and a filament coil within the lamp envelope and including a temperature responsive switch connected between one of the arc electrodes and a starter coil comprising the steps of:
- a. electrically connecting a fusible conducting element across the temperature responsive switch for providing electrical connection between the filament coil and the starter coil during lamp processing;
- b. applying a first voltage value to said filament coil and said starter coil to flash said filament coil during lamp processing; and
- c. applying a second voltage to said filament coil and said starter coil to melt the fusible conducting element to break the electric connection between said filament coil and said starter coil.
- 13. The method of processing a self-ballasted lamp according to claim 12 wherein said second voltage is greater than said first voltage.
- 14. A method for processing a self-ballasted lamp comprising the steps of:
- a. coupling an arc discharge tube between a pair of first and second lead members, said discharge tube having a pair of first and second opposing electrodes therein and a starter coil proximate to said second electrode;
- b. electrically connecting a resistive filament ballast between said first lead member and said first electrode for limiting the lamp current during operation;
- c. electrically connecting said first electrode to said starter coil by means of a temperature responsive switch;
- d. electrically connecting a fusible conducting element across said temperature responsive switch for providing a series connection between said filament coil and said starter coil during lamp processing;
- e. electrically connecting said second electrode to said second lead member to provide input power to said lamp in cooperation with said first lead member;
- f. sealing said lead wires containing said filament coil, said discharge arc tube, said fusible conducting element, and said temperature responsive switch within a lamp envelope;
- g. heating and evacuating said envelope;
- h. applying voltage to said pair of lead wires for heating both said filament coil and said starter electrode;
- i. increasing said voltage to a value sufficient to melt said fusible conducting element;
- j. filling said lamp envelope with an inert gas; and
- k. sealing said lamp envelope.
- 15. A mount structure for use with self-ballasted lamps of the type having an arc discharge tube, a filament coil and a temperature responsive switch contained within a lamp envelope comprising in combination:
- a. a pair of first and second lead support members for providing input power to the lamp;
- b. an arc tube having a pair of first and second electrodes and a starter coil contained therein, wherein the first lead support member is coupled with said first electrode;
- c. a filament coil serially coupled with said second lamp electrode for limiting the lamp voltage;
- d. a temperature responsive switch electrically coupled between the starter coil and said second electrode for providing electrical connection therewith when said switch is in a closed position; and
- e. a fusible conducting element coupled across said temperature responsive switch for providing electrical continuity between said starter coil and said tungsten filament when said temperature responsive switch is in an open position.
Parent Case Info
This is a continuation of application Ser. No. 385,923, filed Aug. 6, 1973, now abandoned.
US Referenced Citations (5)
Continuations (1)
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Number |
Date |
Country |
Parent |
385923 |
Aug 1973 |
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