HU221825B1 - Discharge lamp emitting uv radiation especially solarium lamp - Google Patents

Abstract

The subject of the invention is a discharge lamp (1) emitting UV radiation, in particular a solarium lamp, which is filled with an ionizable medium containing mercury vapor, with electrodes (7) soldered to the ends of the lamp cover (4), and a BaSi2O5:Pb phosphor layer containing aluminum oxide applied to the inner surface of the lamp cover (4). . The aluminum oxide content of the phosphor layer applied as a coating (2) to the inner surface of the bulb (4) is between 5 and 15t%. ŕ

Description

BACKGROUND OF THE INVENTION The present invention relates to UV-discharge discharge lamps, in particular to solarium lamps, in which the light-coating on the inner surface of the bulb also contains alumina.

The discharge lamps are filled with an ionizable medium containing mercury vapor and have a light powder layer on the inner surface of the lamp envelope. Various factors, such as the formation and deposition of mercury compounds on the phosphor, result in the amount of luminous flux emitted by the lamps being unstable over time. This problem, according to GB 2,091,936, can be alleviated by coating the surface of the phosphor with an alumina layer having a specific weight of at least 160 pg / cm ² .

In solarium lamps, the radiation generated by the discharge is converted into UV A radiation, which can be used to tear the skin with the help of fluorescent light. One of the most important features of solarium lamps is the efficiency, that is, the amount of UV A radiation emitted at a given power.

BaSi ₂ O ₅ : Pb is the most suitable fluorescent lamp for UV A radiation. This fluorescent lamp absorbs significantly more mercury than halophosphate fluorescent lamps used in fluorescent lamps, and therefore has a much shorter lifetime than fluorescent lamps. Known solarium lamps have a lifetime of 500 hours, with a significant reduction in luminous flux toward the end of the lifetime.

It is an object of the present invention to provide discharge lamps, in particular solar lamps, which have a high UV A emission, have a longer lifetime compared to known lamps and have a better light flux constant.

The above advantageous properties of the discharge lamp according to the invention, in particular the solar lamp, are provided by coating the inner surface of the bulb with a powder containing 5-15% alumina. The fluorescent BaSi ₂ O ₅ : Pb.

Aluminum oxide has already been used in mercury vapor discharge lamps as an adhesion enhancer when incorporated into the fluorescent powder, generally in a ratio of 2-3%. However, the fact that 5-15% by weight alumina mixed in the light powder increases the efficiency of the solarium lamp and reduces the light reduction is not surprising for one skilled in the art.

The lamp according to the invention is thus a mercury vapor discharge lamp with electrodes soldered at both ends, with a BaSi ₂ O ₅ : Pb light powder layer on the inner surface of the bulb containing 5 to 15%, preferably 8% by weight of alumina.

An embodiment of the invention is illustrated in the accompanying drawings. Figure 1 is a side view, partially in section, of the lamp, and Figure 2 is a view

1 is a cross-sectional view of the lamp of FIG. The mercury vapor discharge lamp 1 has a tubular glass bulb 4 with a stand 5 soldered to each end of the glass bulb 4. The racks 5 are each provided with two electrodes 7 through a vacuum-tight metal-glass bond, the electrodes 7 being connected together by a helix 6 inside the lamp. The 4 glass envelopes are coated with Al ₂ O ₃ BaSi ₂ O ₅ : Pb 2, and the 2 are coated with a Degussa Geschaftsbereich Pigmenté, Frankfurt am Main, Germany.

Covered by Aluminum Oxide 3 Coatings, marketed by the company based in the Republic under the Álon C designation. The mercury vapor discharge lamp 1 is provided at each end with a head 8 for insertion and electrical connection into a standard socket (not shown). The electrodes 7 discharged from the interior of the lamp are connected to the pins of the heads 8.

One embodiment of the present invention is to coat the BaSi ₂ O ₅ : Pb light powder coating with about 8% alumina, even with an alumina layer, which has a specific weight of up to 80 pg / cm ² , i.e. The specific gravity described in GB 2,091,936 is not only lower in weight but also in the amount of alumina in the first layer.

The data in Tables 1 and 2 illustrate the advantageous properties of the lamps according to the invention. The fluorescent coating of the control lamp contained only 11% alumina as a tackifier.

Comparative results:

Table 1

UV A-values for 100 W power (mW / cm ² )

Elapsed Time (Hours) A1 ₂ O ₃ content (% w) 0 100 500 Comparative (state of the art) lamp 1 8.06 6.28 5.52 5 8.58 7.12 6.22 Lamp according to the invention 8 9.1 7.78 6.89 I. 15 8.22 6.66 5.67

Table 2

UV A-values for 160 W power (mW / cm ² )

Elapsed Time (Hours) A12O3 content (% w) 0 100 500 Comparative (state of the art) lamp 1 9.85 6.92 5.71 Lamp according to the invention 8 11.32 9.01 8.02 Lamp according to the invention Second layer having a specific gravity of 8 + 80 pg / cm ² 11.22 9.58 9.14

It can be seen from Tables 1 and 2 that the UV A emitted by the lamps according to the invention initially

EN 221 825 Β1 is significantly higher than the state of the art lamps throughout.

Further, while known lamps exhibit a 30-40% reduction in luminous flux after 500 hours of burn time, the lamps of the present invention may exhibit a reduction of less than 20%.

The lamps of the present invention have a nominal life of 800 hours.

In the process of making the lamps according to the invention, the inner surface of the bulb is dispersed in a dispersion of BaSi ₂ Os: Pb, which also contains alumina, and after the coating, the binder is fired.

Example 1

BaSi ₂ O ₅ containing 81% alumina: Pb phosphor prepared from an aqueous dispersion of alumina was smaller than the aforementioned micrometers particle size obtained lánghidrolízissel A1 ₂ O _3, wherein the primary particle size is preferably about 20 nm, the bulk density is preferably 60 g / 1 volt. The dispersion was applied to the inner surface of a bulb of a solarium lamp. After coating, the binder was fired at 600 ° C for 150 s. The specific weight of the powder / alumina was 3.2 mg / cm ² .

Example 2 An aqueous dispersion was prepared from BaSi ₂ O ₅ : Pb fluorescent powder containing t% alumina. The alumina is marketed by Degussa Geschäftsbereich pigments company Alon C type designation, submicron grain size, obtained lánghidrolízissel A1 ₂ O ₃ was here, where the primary particles has a particle size of about 20 nm, the bulk density is preferably 60 g / 1st The dispersion was applied to the inner surface of a bulb of a solarium lamp. After coating, the binder was fired at 600 ° C for 150 s. The specific weight of the powder / alumina was 3.2 mg / cm ² . The second alumina layer was then applied as an aqueous dispersion to the first light powder layer and the binder burnt. The second layer had a specific weight of 80 pg / cm ² .

Claims (3)

PATENT CLAIMS Issuing the first UV radiation discharge lamp, in particular tanning lamp which is filled with an ionizable medium containing mercury vapor, soldered ends of the lamp envelope with electrodes applied to the inner surface of the lamp envelope, an alumina BaSi ₂ O _5: Pb phosphor, wherein the phosphor layer of aluminum its oxide content is between 5 and 15% by weight. Discharge lamp according to claim 1, characterized in that the aluminum oxide content of the light powder layer is 81%. Discharge lamp according to claim 1, characterized in that a portion of the alumina is in the form of a second layer having a specific gravity of 80 pg / cm ^{2 on the} layer of light powder.