DE1937938B2 - Low-pressure mercury vapor discharge lamp with main and secondary amalgam - Google Patents

Description

The invention relates to a low-pressure mercury vapor discharge lamp with the features of the preamble of claim 1.

The vapor pressure in the lamps is determined by the property of the amalgam, with the same Temperature to have a lower Hg vapor pressure than free mercury. While the main amalgam the operating equilibrium vapor pressure is determined by that in a much hotter place than the place The main amalgam attached secondary amalgam accelerates the lamp start-up. The main amalgam is Indium amalgam used.

It is known that for the function of the amalgam the location of the amalgam-forming part is within the lamp Metal or amalgam and the composition of the latter both in terms of the chosen amalgam-forming metal and its quantitative proportion in the alloy are important; through the The place of attachment is even the selection of the amalgam-forming metal or metals and the composition the or the amalgams to be used influenced (DE-PS 10 86 804). For the choice of the installation location in the lamp, the temperature present at this point during lamp operation is decisive.

The amalgam-forming metals cadmium and / or indium and / or tin have proven to be particularly suitable for use in lamps, with the geometrical shape in the lamp and the way in which the amalgam-forming metals or amalgams are attached being very different known to introduce amalgams in a certain composition into the lamp and to glue or roll them in the form of a line, film or pill, preferably on the inner wall of the discharge vessel (DE-PS 11 04 060, DE-PS 11 40 286, DE-PS 11 49 818, DE-PS 11 96 292). However, it is also known to initially only introduce the amalgam-forming metal into the lamp, so that the amalgam only forms in the lamp after the mercury has been filled in. For example, indium was attached as a strip that covers the inner circumference of the bulb wall in the center of the lamp (Japanese. Patent application 40-8518 or indium was attached as a strip to the pinch feet in the lamp (dt utility model 19 34 678) or housed in a sieve-shaped container (dt utility model 19 37 402) or a nickel mesh was placed around the lamp base and filled with indium was impregnated, to which tin is usually added because of the difficult handling of the indium, which is liquid during lamp operation, but with this attachment of the amalgam-forming metal the base tube must be lengthened by at least the distance from the filament of at least necessary for the operating temperature of the amalgam present in this form To be able to adhere to 20 to 60 mm (Dutch patent application 65 07 948). If indium alone was introduced into the lamp as the amalgam-forming metal, the ratio of indium to mercury in the amalgam formed after the lamp was put into operation was usually 3: 1. It has also been found that when using indium amalgam, especially with the addition of tin, the temperature dependence of the luminous flux is lower, i.e. This means that the curve of the light yield as a function of the vapor pressure is flatter than, for example, in the case of cadmium amalgam; the light output does not fall while within a temperature range of 30 ⁰ C is not more than 5% and 45 ° C more than 10% from (Holl.

Patent application 65O7S48, hi / IL patent application 68 15 202).

The interaction of two amalgams with different functions is also known, e.g. B. a main amalgam, by which the mercury vapor pressure is determined during the operation of the lamp, and a Another amalgam that shortens the start-up time. Both when using cadmium as from Indium for the main amalgam, it is known, indium or an alloy of indium to form the ignition or introducing start-up amalgams into the lamp (DE-PS 12 74 228, Dutch patent application 65 12 256, U.S. Patent 32 27 907).

The lamps in US-PS 32 27 907 are so-called high-power lamps, so to

tt lamps with a power consumption of more than 0.7 W per cm of discharge length. With these lamps, the maximum luminous flux is achieved at an ambient temperature of 50 ^° C. It is emphasized that it is not possible to apply all of the indium to the hot spot, otherwise the mercury would condense on the colder spots of the lamp and the lamp would not be suitable for all operating conditions. In AT-PS 2 71 625, too, the main amalgam is at a point that is not influenced by the electrode temperature; the only minor amalgam is placed near the electrode. If the main amalgam consists of indium amalgam, the weight ratio of indium to mercury should be 3: 1. At a

such composition of the main amalgam and the temperature specified in the patent of The mercury vapor pressure is already well above 90-95 ° C above the optimal value for the luminous efficiency, which adversely affects the efficiency of the lamp affects. In the lamps of DE-AS 12 74 228, the main amalgam is also far from the electrodes remote locations, preferably on the wall

However, despite the advances already made in making lamps with amalgam, it was up to now still necessary for every thermal load area, as it is for example with Operation of lamps in the various luminaires results in each one lamp type with a certain Provide dimensioning of the amalgam filling; the amalgam-forming Metal and the composition ratio of the amalgam selected so that the luminous flux maximum of the lamp is reached approximately in the middle of the intended area. For use in rooms with At a temperature of 25 ° C, normal fluorescent lamps were previously used when using open light strips used without amalgam

The invention is based on the object to reduce the number of different lamp types and one with regard to electrical load, dimensions, filling, starting properties and simplicity of the Manufacture to create optimal lamp at which the maximum luminous flux at an ambient temperature of about 35 ° C is reached.

The low-pressure mercury vapor discharge lamp with main and secondary amalgam, the main amalgam determining the operating equilibrium vapor pressure and in a much hotter place than the place of the Main amalgam attached secondary amalgam accelerates lamp start-up, whereby the lamp consumes power of less than 0.7 W per cm of discharge length and, as the main amalgam, indium amalgam is used, is according to the invention characterized in that the weight ratio Indium to mercury in the main amalgam is 12: 1 to 3: 1, the main amalgam depends on the electrode temperature affected parts with an operating temperature of 80-110 ° C in the lamp, and as In addition to amalgam, there are also several start-up amalgams in different places with different from each other Temperature are present in the lamp, its temperature is greater and its heat capacity is lower is as that of the attachment site of the main amalgam, so that the start-up amalgams are theirs Achieve maximum mercury release one after the other but before the main amalgam.

It is advantageous if the place of attachment for the main amalgam or the corresponding amalgam-forming Metal has a temperature of 90 ° C when the lamp is in operation and the weight ratio is indium to the mercury in the amalgam is 6. · I.

Surprisingly, if these conditions are observed, a substantial broadening w> the luminous flux temperature curve is achieved. While the luminous flux been dropped its maximum value already within a temperature range of about 45 ° C to 10% at an indium on amalgam of 88 wt .-%, is achieved with the lamp according to the invention is that the luminous flux within a temperature range of 70 ⁰ C not below 90% of its maximum, which is reached * at 37 ° C. sinks. Within a temperature interval of 45 ° C., the luminous flux in the lamps according to the invention is even more than 90% of the maximum value, while in the case of the previously known lamps only a temperature range of about 30 ° C. can be covered. A broadening of the luminous flux temperature curve by more than 50% brings obvious advantages not only with regard to the usability of the lamp at different ambient temperatures, but also with regard to its usability in luminaires. Since the temperatures occurring in the commercially available lights, for example in open light strips, louvre lights, tubs, cassette and moisture-proof lights, assume values between 30 ° C and 75 ° C at a constant room temperature, the lamp according to the invention is suitable for all interior lighting The lights in question are excellently suited and thus replaces both the normal fluorescent lamp provided for open lights and the various previously known in amalgam lamps that have been adapted to the closed lights. Because both for a lamp with cädmiuiiiainaigam with a maximum luminous flux of 50 ° C and for a normal fluorescent lamp with a maximum luminous flux of 18 ° C, the luminous flux decreases by 10% within a temperature range of 30 ° C.

Since the mercury content of the indium amalgam is the lamps according to the invention should be chosen to be low in order to achieve the favorable temperature behavior, it is necessary, similar to, for example, cadmium amalgam lamps, an additional amalgam to shorten the start-up time in the lamp. This startup amalgam is at a point that after lighting the lamp quickly warmed up is attached. But it has been shown that the luminous flux in these lamps, after an initially rapid increase, drops temporarily for a certain time, as the still cold ones with a high affinity for mercury Indium main amalgam absorbs the mercury and only releases in a defined manner after prolonged heating. Therefore, further start-up amalgams are now being included in the l.dmpe provided, which are dimensioned and their locations are selected so that by this Amalgam the short-term decrease in luminous flux is absorbed. Only one point is used as the attachment point with a lower heat capacity, which is closer to the electrode than that of the main amalgam.

With the lamp according to the invention it has been possible to cover the area of application of the standard fluorescent lamp operated with normal power consumption largely expand without having to make constructive changes. With everyone in the The lamp according to the invention provides a high temperature occurring in interior lighting Luminous flux that is in no case below 95% of the value reached at the optimum temperature. While the fluorescent lamp without amalgam only with open lights and here for the different temperature ranges designed previous amalgam lamps only in closed luminaires with regard to their light flux work optimally, the working areas of all these lamps are in the optimal range of the indium amalgam lamp united so that with the lamp according to the invention a universal lamp for interior lighting has been created.

Embodiments of the invention are shown in the figures and are described in more detail below described.

F i g. 1 shows a low-pressure mercury vapor discharge lamp with main and minor amalgam;

in Fig.2 is the curve of the relative luminous flux Φ / Φπ »ΐ. depending on the ambient temperature of the lamp in "C is shown for various fluorescent lamps, including those in the commercially available ones Lights covered temperature ranges (at 28 ° C room temperature), which differ depending on the Design and result from the number of lamps operated in the luminaire;

Fig. 3 shows the run-up behavior of 65W fluorescent lamps in a commercially available lamp whose internal temperature is 50 ⁰ C at 25 ° C ambient temperature.

At the ends of the lamp bulb 1, which is provided with a fluorescent coating 2 on the inside, in FIG. 1 are the Electrode feet 3 melted, coming from the plate foot 4, the pinch 5 through which the power supply lines 6 and 7 are performed, and the pump tube 8 exist.

At the inner ends of the power supply lines 6 and 7 the oxide-pasted electrode coil 9 is fastened by an annular metal cap 10 made of sheet iron is surrounded. The cap 10 carries a strip 11 made of an indium alloy as the first start-up amalgam, preferably made of indium, tin, lead in a ratio of 2: 6: 2. The total amount of amalgam-forming Metals in the strip-shaped covering 11 is about 5 up to 10 mg. The amalgam-forming metal for the main amalgam is located on the plate foot 4 sprayed on indium metal 12 in an amount of 60 mg, the indium content in the amalgam 6: amounts to. An indium spot 13 of 5 to 10 mg is sprayed onto the pinch 5.

In FIG. 2, curve a gives the luminous flux curve

a normal fluorescent lamp without amalgam (maximum at 18 "C), the curve b to a Indiumamalgamlampe according to the invention (Maximun at 37 ⁰ C) and the curve c to the amalgam lamp a cadmium (maximum at 50" C) again. To Ham

ίο the specified operating temperatures within de different lights the advantage of the lamp according to the invention can be clearly seen. Under I. is the temperature range for open light strips, under II for downwardly open reflector strips, under III. NS Louvre lights, under IV. For tubs and cassettes light and under V. for damp-proof lights or the like indicated.

In Fig. 3 shows the curve t the start-up behavior 65 W fluorescent lamp with main indium amalgam

with two start-up puppies, curve 2 comparatively. with a start-up amalgam, curve 3 without start-up amalgam yarn. Curve 4 shows a comparison of a 65 W fluorescent lamp without amalgam. It is always the light stream depending on the time passed in minutes after the lampi was ignited. The Kurvei show that with the second start-up amalgam in the case of ndium amalgam lamps, the start-up time is essential shortened and the short-term decrease in luminous flux is almost canceled.

For this purpose 3 sheets of drawings

Claims (3)

Patent claims: 1. Low-pressure mercury vapor discharge lamp with main and secondary amalgam, whereby the main amalgam determines the operating equilibrium vapor pressure and the secondary amalgam, which is placed at a much hotter place than the location of the main amalgam, accelerates the lamp start-up, whereby the lamp has a power consumption of less than 0.7 W per cm of discharge length and Indiumamalgam is used as the main amalgam, characterized in that the Gewichtsverhällnis indium to mercury in the main amalgam (12) i 12: 1 to 3: 1, the main amalgam (12) located at the electrode temperature affected areas with an operating temperature of 80-110 ⁰ C is located in the lamp, and as a secondary amalgam there are also several start-up amalgams (11, 13) at different points with different temperatures in the lamp, the temperature of which is higher and the heat capacity of which is lower than that of the location of the main amalgam (12), so that the start-up amalgams (11,13) their maximum Deliver mercury sequentially but before reaching the main amalgam. 2. Low pressure mercury vapor discharge lamp according to claim 1, characterized in that the weight ratio of indium to mercury in Main amalgam (12) is 6: 1 3. low pressure mercury vapor discharge lamp according to Ansbach uch 1 and 2, characterized in that the main amalgam (12) is located at locations in the lamp during lamp operation have a temperature of 90 ⁰ C.