Claims
- 1. An electric incandescent lamp, comprising:
- (a) a lamp envelope;
- (b) current-supply conductors which enter said lamp envelope;
- (c) a filament within said lamp envelope, each end of the filament being electrically connected to a respective current supply conductor to permit lamp operating current to flow through said filament;
- (d) an arc discharge interruption fuse; and
- (e) an arc discharge conductor within said lamp envelope having one end electrically connected in series with said arc discharge interruption fuse to a current supply conductor, said arc discharge conductor being spaced and electrically isolated from said filament whereby lamp operating current does not flow in said arc discharge conductor and does not flow in said arc discharge interruption fuse during normal lamp operation, said arc discharge conductor having a portion proximate said filament for facilitating arc transfer from said filament to said arc discharge conductor upon occurrence of a destructive arc between portions of said filament, such that the arc jumps to said arc discharge conductor and an arc current then flows through said arc discharge interruption fuse which opens in response to the arc current thereby interrupting the arc current and extinguishing the arc.
- 2. An electric incandescent lamp, comprising:
- (a) a lamp envelope;
- (b) current-supply conductors which enter said lamp envelope;
- (c) a filament within said lamp envelope, each end of said filament being electrically connected to a respective current supply conductor to permit lamp operating current to flow through said filament;
- (d) a plurality of arc discharge interruption fuses;
- (e) a plurality of arc discharge conductors within said lamp envelope, said arc discharge conductors being spaced and electrically isolated from said filament whereby lamp operating current does not flow through said arc discharge conductors and does not flow through said arc discharge fuses during normal lamp operation, each said arc discharge conductor having one end electrically connected in series with a corresponding one of said arc discharge interruption fuses to a corresponding current-supply conductor, and said arc discharge conductors each having a respective free end, a portion of each said arc discharge conductor being proximate said filament for facilitating arc transfer from said filament to an arc discharge conductor upon occurrence of a destructive arc between portions of the filament, such that the arc jumps to said discharge conductors and an arc current then flows through an arc discharge interruption fuse which opens in response to the arc current thereby interrupting the arc current and extinguishing the arc.
- 3. The incandescent lamp as claimed in claim 2, wherein said filament is comprised of filament segments disposed in a planar array, said array of segments having a width dimension bounded by outermost filament segments, and said free ends of said arc discharge conductors being spaced closer than the width of said array.
- 4. An electric incandescent lamp, comprising:
- (a) a translucent lamp envelope sealed in a vacuum-tight manner and having an end wall, the envelope having a length dimension along the longitudinal axis of said envelope;
- (b) current supply conductors which enter the lamp vessel through said end wall;
- (c) a plurality of arc discharge interruption fuses;
- (d) a filament comprised of filament segments disposed in a planar array, said planar array having a width dimension bounded by outermost filament segments, said width dimension being substantially perpendicular to the longitudinal axis of said lamp envelope, said planar array having a length dimension substantially parallel to the longitudinal axis, each end of said filament being electrically connected to a respective current supply conductor so that lamp operating current flows through the filament;
- (e) a frame comprising a plurality of arc discharge conductors extending substantially longitudinally in said lamp envelope and insulating members extending substantially transversely to said arc discharge conductors and interconnecting said arc discharge conductors, each said arc discharge conductor having a first end electrically connected in series with a corresponding arc discharge fuse to a corresponding current supply conductor, each arc discharge conductor having a second end which is further away from said end wall than said first end of said arc discharge conductor;
- (f) means for connecting said segments of said filament array to said transverse insulating member so that said segments remain substantially taut during lamp operation; and
- (g) said arc discharge conductors are spaced and electrically isolated from said filament whereby lamp operating current does not flow through said arc discharge conductors and does not flow through said arc discharge fuses during normal lamp operation, said second ends of said arc discharge conductors are located within an area described by a circle centered on the longitudinal axis of said lamp envelope which circumscribes the outermost filament segment of said filament arrays, such that upon occurrence of a destructive arc between portions of said filament, the arc transfers to said arc conductors and an arc current then flows through an arc discharge interruption fuse which opens in response to the arc current thereby interrupting the arc current and extinguishing the arc,
- said insulating members being positioned away from said filament a sufficient distance to allow sufficient arching of the arc to facilitate transfer of the arc to said arc discharge conductors, and
- said arc discharge fuses are sufficiently slow acting to prevent reignition of the arc between positions of the filament.
- 5. A lamp as claimed in claim 4, wherein:
- the number of said arc discharge conductors is two and the number of said arc discharge fuses is two,
- said filament comprises filament segments disposed in a plurality of planar arrays, said arrays being substantially parallel to each other and to said frame, said filament having a length dimension corresponding to the longest of said arrays and having a width dimension corresponding to the widest of said arrays,
- each said arc discharge conductor has a portion extending substantially the length of said filament, each said conductor portion being located within an area described by an imaginary circle centered on the longitudinal axis of said lamp envelope which circumscribes the outermost filament segment of said planar arrays, each said portion extending substantially the length of said filament, and both of said portions lie in a plane which is substantially parallel to said planar arrays and which is more distant from said longitudinal axis of said lamp envelope than any planar array.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8402107 |
Jul 1984 |
NLX |
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Parent Case Info
This is a continuation of application Ser. No. 746,214, filed June 18, 1985, now abandoned.
US Referenced Citations (8)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2050693 |
Jun 1979 |
GBX |
Continuations (1)
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Number |
Date |
Country |
Parent |
746214 |
Jun 1985 |
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