DE2640001A1 - Incandescent lamp having blue filter layer on outer surface - resistant to high temps., increasing its working life - Google Patents

Abstract

Incandescent lamp comprises a tubular glass sheath with sealed-in closure means at each end, and an elongate W heating wire within the sheath. The ends of the heating wire are electrically connected to feed wires which extend through the closure means. On the outer surface of the sheath is a vacuum-deposited blue filter layer which increases the colour temp. of the light emitted by the lamp to approx 5000 degrees K. The filter may consist of alternate layers of Si and Ti cpds. In an example, the centre of the sheath has a temp of approx 700 degrees C in operation, which has no effect on the transmission properties of the filter viz. a low degree of reflection for blue light of 400-500 nm, and a high degree of reflection for other visible radiation of 500-800 mm.

Description

Incandescent lamp with a color temperature of 50000K

The invention relates to a tungsten-halogen lamp. Such lamps have a heating level made of tungsten and a shell made of silicon glass and one Halogen gas filling, which reduces the blackening of the glass envelope and increases the service life the lamp increased. The color temperature of such lamps is approximately 34000K.

When such lamps are used to create scenes for filming or to illuminate color television recordings, the luminous efficacy will be approximately 5,000 0K increased to the to achieve the best film speed. Such Color corrections were achieved through the use of gelatin filters made before the lamps were set.

However, gelatin filters age very quickly because of the high heat, which comes from the lamps and must be replaced often in this way. The present invention proposes a lamp that has such short-lived use Filter bypasses.

The lamp according to the invention has a color correction filter in the form of alternating layers of silicon and titanium, which are applied directly to the lamp envelope are upset. Such a filter is insensitive to the high temperature the glass wall.

The invention is described in more detail below with the aid of FIGS explained.

Figure 1 shows a side view of an incandescent lamp and Figure 2 shows the dependence of the whiteness of the color correction filter of the lamp.

The lamp consists of a tubular quartz envelope 1 with press feet 2 at each end. The envelope 1 contains a filling made of halogen to achieve the well-known regeneration of the tungsten wire, thus blackening the glass wall is avoided. Inside the glass body 1 is the wound tungsten filament 3 stored in the axial direction. Hold wires 4 and connect the Heating wire 3 with ribbon 5 made of molybdenum, which is embedded in the Duetschfuß 2; are and which are connected to lead wires 6.

On the outer surface of the glass envelope 1 is a multilayer Blue filter 7 applied, which by alternating layers applied in a vacuum made of silicon and titanium. I) The filter 7 corrects the color of the Light to 50000K by adding a higher percentage of blue light than the rest Radiation is emitted.

FIG. 2 shows a typical curve for the reflection level of such a device Filters. The filter has a low degree of reflection, i.e. a high one Blue light transmittance of about 400 to 500 nanometers, but one high degree of reflection for the other visible rays of around 500 to 800 nanometers.

In an example carried out, the heating wire 3 was made from a tungsten wire of 0.29 mm manufactured in such a way that the wire initially has a number of turns of 50 turns per inch on a mandrel of 1.02 mm and then the whole thing with 13 turns per inch on a 2.41 mm mandrel. The glaze coating 1 was made of a quartz glass, the length of the envelope 1 between the Melts 2 was 69.9 mm.

The filter 7 produced according to the invention consists of SiO2 from 1/8 wave, on top a layer of TiO2 and SiO2 of 15/4 waves and finally one Layer of SiO2 of 1/8 wave. During operation, the glass envelope 1 had one Temperature of 700 ° C approximately in the middle of the envelope. The transmission properties of the ri X -ter 7 were not affected by this high wall temperature.

Claims (2)

Claims: 1. Incandescent lamp with a tubular glass envelope and fused seals at each end, as well as an elongated one made of Wol-FramdraIit coiled filament placed inside the sheath with the ends of the Heizdrahtos are electrically connected to the lead wires, which through the melted closures protrude, characterized in that on the outer surface of the envelope 1 a blue filter layer applied in a vacuum is arranged, which is the color temperature of the light emitted by the lamp increases to about 5000 ° K. 2. Incandescent lamp according to claim 1, characterized in that the filter consists of alternating layers of?) I? 1i zium and titanium compounds.