EP1039504A1 - Metal halide discharge lamp - Google Patents

Abstract

A metal halide discharge lamp, having a rare earth-free filling containing hafnium, zirconium and/or tantalum as lithium substitute, is new. A metal halide discharge lamp, having a rare earth-free filling comprising an ignition gas, mercury, a halogen, indium, thallium and tin, additionally contains hafnium, zirconium and/or tantalum as lithium substitute and has a discharge vessel wall loading of ≥ 50 W/cm<2>. Preferred Features: The filling contains 0.20-4.0 mu mol/ml lithium substitute, 0.2-2.0 mu mol/ml indium, 0.05-0.5 mu mol/ml thallium and 0.5-5.0 mu mol/ml tin.

Description

Technical field

The invention is based on a metal halide discharge lamp with a long service life according to the preamble of claim 1. It is in particular around metal halide discharge lamps for the field of application of effect lighting, i.e. with color temperatures above 5000 K and medium Arc lengths. The service life is at least 1500 hours.

State of the art

From WO 98/48446 a metal halide discharge lamp with a long service life (at least 1500 hours) is already known, which is suitable for a wall load above 30 W / cm ² . The filling contains the metals Li, In, Tl and Sn for use in effect lighting (over 5000 K color temperature). Na and rare earth metals are deliberately avoided as these are problematic for the quartz glass discharge vessel. The disadvantage of this filling is the limited wall load. At high wall loads above 50 W / cm ^{2 there} is a strong drift in the color temperature due to diffusion of the small-atom Li through the wall of the discharge vessel.

Furthermore, from EP 492 205 is a metal halide lamp for effect lighting known as metals hafnium u./o. Zircon used. Otherwise only cesium, rare earth metals and cobalt or nickel are used as additives. Though becomes a good color rendering (color rendering index Ra> 90) and a good one Red rendering (R9> 90) achieved. However, the lifespan is only around 500 up to 750 hours

Such lamps are preferably used for luminaires for architecture and Effect lighting, in particular for ambient lighting highlighting and intensifying accent lighting in limited areas, e.g. in House and apartment, in galleries or at events. In this area the optical properties of light, especially localization the generation of light, the luminous flux related to the lamp power and the color temperature demands placed between the area of general lighting and special requirements, such as projection are.

Despite the increased demands on the general lighting area The technical characteristics of such lamps are also used in the effect light range great importance is attached to the longest possible lifespan in order to Replacement lamp costs and labor associated with replacement to lower and on the other hand to increase reliability and freedom from maintenance.

Furthermore, there is good color rendering and the correct color temperature of great value.

Presentation of the invention

It is an object of the present invention to provide a metal halide lamp according to the Provide preamble of claim 1, which is good maintenance for a long time Lifetime (at least 1500 hours) ensures.

This object is achieved by the characterizing features of claim 1. Particularly advantageous configurations can be found in the dependent claims.

It can be seen that Li is replaced by one or more of the components Hf, Zr and Ta can be. The proportion of these lithium substitutes is preferably between 0.2 and 4.0 µmol / ml selected.

First of all, the invention assumes that devitrification, that is, increasing crystallization the bulb of a metal halide discharge lamp essentially its Lifetime determined. The invention therefore sees a filling without a rare earth element because the rare earth elements are the main cause of the devitrification phenomenon have turned out with increasing operating age of the lamp.

Dispensing with a rare earth element has an additional beneficial effect - in addition to extending the lifespan through lower devitrification - also result in a reduced tendency of the lamp to blacken on the inner wall of the bulb.

The invention uses a filling which, in addition to the conventional components of ignition gas, mercury, halogen, indium, thallium and tin, contains the lithium substitutes hafnium, zirconium and tantalum individually or in combination. The lithium substitutes are responsible for the red component, while indium is responsible for the blue component and thallium for the green component in the radiation from the lamp. All of these elements essentially emit spectral lines, while tin is used to create a good continuum between the lines. Surprisingly, this filling composition develops its optimal effect (long service life and good maintenance with good lighting values) only from a wall load of 50 W / cm ² .

Lamps with a color temperature of over 5000 K are preferred, better above 6000 K. As already explained, the arc length of the respective lamp power is accordingly in the middle area; in particular, that related to the arc length specific output between 50 and 90 depending on the embodiment W / mm.

In order to be able to set the color temperature high, preference is given to the lamp filling without sodium. It is particularly preferred that in addition to the above there are no other ingredients at all in the filling, of which apart from usual impurities.

Preferred halogens are the conventionally known elements iodine and bromine, i.e. the metals mentioned indium, thallium and tin as well as the lithium substitutes are added to the lamp as iodides and / or as bromides. Furthermore, part of mercury may added as iodide or bromide to excessive piston blackening to avoid. So it can be elemental and / or mercury be added as a halide.

Lithiumersatzstoffe:

0,20 - 4,0 µmol/ml, insbesondere 0,30 - 1,5 µmol/ml

Indium:

0,3 - 3,0 µmol/ml

Thallium:

0,05 - 0,5 µmol/ml

Zinn:

0,5 - 5,0 µmol/ml.

The following have proven to be advantageous as preferred concentration ranges for the four elements from the characterizing part of claim 1:

Lithium substitutes:

0.20 - 4.0 µmol / ml, especially 0.30 - 1.5 µmol / ml

Indium:

0.3-3.0 µmol / ml

Thallium:

0.05-0.5 µmol / ml

Tin:

0.5 - 5.0 µmol / ml.

The concentration ranges mentioned are not only in the overall combination, but also individually and independently of one another and in sub-combinations advantageous.

The invention finds a useful field of application in the performance range of 200 to 2500 W per lamp, but can also be used outside of these ranges become. As already explained at the beginning, it is particularly suitable for the Effect light market, in which somewhat lower demands on the color locus and the Luminance than in special applications such as in the film area or projection area be put. On the other hand, it makes itself felt in the effect light area the significantly improved service life as an economically significant advantage noticeable.

Commercially available lamps are often with an additional outer bulb fitted. You can choose between the outer and inner pistons instead of one Vacuum also special gas fillings are used. The invention is in equally suitable for lamps with or without an outer bulb.

The outer bulb can e.g. can also be advantageous as protection against contact, for example if an inner piston provided with two on opposite sides in a lamp to be connected on one side only. Then someone has to of the two connections of the inner piston on the outer wall of the inner piston are guided along to the other side, using an outer bulb as protection against accidental contact is appropriate. Finally, the improved explosion protection can be a reason for choosing a lamp with an outer bulb.

Description of an embodiment

A specific embodiment is designed as follows:

A 300 W lamp with a discharge vessel sealed on both sides Quartz glass, which contains two electrodes, has an average electrode spacing of 5.5 mm. It is designed for operation without an outer piston and has a piston volume of 1.4 ml. Using an outer bulb would increase the the wall temperature slightly lowers the color temperature. To compensate the wall load would be reduced (i.e. the lamp power reduced or the Inner bulb enlarged) and / or the proportion of iodides in the lithium substitutes reduced, to get the desired color temperature value. This is in present example 5500 K. The lifespan is over 2000 hours.

At an ignition gas pressure of 350 hPa argon, 41 mg Hg are used. The remaining portions are 0.63 mg InJ, 0.67 mg SnBr _2, 0.12 mg TIJ. In addition, the components listed in Table 1 were supplemented in three exemplary embodiments in order to achieve a wall load of more than 50 W / cm ² (specific power 55 W / mm). 1st embodiment 2nd embodiment 3rd embodiment Color temperature in K 6400 6800 7200 Luminous flux in klm 22 22 20.5 Burning voltage in V 90 90 90 Lithium halide replacement 0.72 mg HfBr ₄ 0.32 mg ZrBr ₄ 0.30 mg TaJ ₅ Another halogen addition 0.72 mg HgBr ₂ 0.72 mg HgBr ₂ none

The spatial-physical design is conventional and corresponds, for example the form explained in EP-A 492 205. The corresponding revelation is hereby referred.

Claims (7)

Metal halide discharge lamp with a long service life of more than 1500 hours and with a color temperature of more than 5000 K and with a filling of at least the following components: an ignition gas, mercury, a halogen, and Indium, Thallium, Tin, this filling is contained in a discharge vessel and contains no rare earth element, characterized in that the filling further contains hafnium, zirconium and tantalum as a lithium substitute, individually or in combination, the wall load of the discharge vessel being at least 50 W / cm ² . Metal halide lamp according to claim 1, characterized in that the on Specific power of 50 to 90 W / mm. Metal halide lamp according to claim 1, characterized in that the filling contains no sodium. Metal halide lamp according to claim 1, characterized in that the filling contains exactly the components mentioned. Metal halide lamp according to claim 1, characterized in that the mercury is introduced elementarily and / or as a halide. Metal halide lamp according to claim 1, characterized in that the color temperature is over 6000 K. Metal halide lamp according to claim 1, characterized in that the concentration of the metals is as follows:

- Lithium substitutes:

0.20-4.0 µmol / ml

- indium:

0.3-3.0 µmol / ml

- Thallium:

0.05-0.5 µmol / ml

- tin:

0.5 - 5.0 µmol / ml.