DE2011314B2 - RING UNLOAD DEVICE - Google Patents

Description

The invention relates to a ring discharge device with a closed ring discharge lamp and with an execution for inductive coupling of high-frequency power into the ring discharge lamp.

Known discharge lamps have an electrode which is used to draw electrical power from an external To feed power supply into the discharge lamp. The structure and material of the discharge lamp are important the electrode se: .r important so that it can fulfill the purpose just outlined. More precisely, the suitability of the electrode for the desired electron emission not only has a great influence on the electrical and optical operating properties of the discharge lamp, but is also closely related linked to the breakdown voltage for starting the discharge lamp, so that fluctuations in the electrical properties of the discharge lamp as well as irregular fluctuations in the current occur during the operation of the discharge lamp depending on the properties of the electrode. Furthermore, there occurs a deterioration in electron emission from the electrode due to sputtering and Evaporation of the electron-emitting material when igniting and operating the discharge lamp. and the material atomized by the electrode causes blackening of the lamp wall. Therefore the electron-emitting materials of the electrode severely limit the service life the discharge lamp.

Various difficulties due to the presence of the electrode are more pronounced the so-called metal halide discharge lamps. in which metal compounds in the form of halides are contained in a glass bulb to generate emission spectra of the metals. the Halogens released by the discharge contribute to damage to the electrode as a result of it chemical activity, so that they accelerate the aging of the discharge lamp. For example is the service life of a high pressure mercury vapor discharge lamp with a metal halide, as is currently used, less than a third of such a discharge lamp that does not contain metal halide. The metal halide discharge lamp however, it is widely used as a light source because of its high output and one shows good color distribution. There has therefore been a great need for a long time to extend the service life of Metal halide discharge lamps increase more strongly.

It is already known for this purpose (see Japanese patent specification 303 725 and Illumination Engineering, Vol. 64, 1969, No. 4, Section I. pp. 236 to 244), an electrodeless discharge lamp without provide an electrode of the type described above, namely a ring discharge lamp with a secondary winding of a transformer to inductively a Generate electrodeless discharge in. The ring discharge lamp.

Although this electrodeless discharge lamp differs Has advantages, e.g. B. that of stable operation for a longer period of time, one not so rapid reduction in luminous flux and generally a longer service life, it has the disadvantage.

üai.i a relatively high electrical strength in the Discharge lamp must be generated. what an electrical power supply high frequency and very makes large dimensions of the magnetic core and the discharge lamp required.

The object of the invention is therefore to provide a ring discharge device of the type mentioned at the beginning Specify the type in whose ring discharge lamp the electrical hero strength is kept at a low value without affecting the light output and the color distribution be affected.

This object is achieved by cadmium-containing filling gas, the cadmium of which is used to lower the electrical The field strength in the ring discharge lamp is used to ensure that the high-frequency power is relatively low-frequency can be.

It is true that cadmium was added to the envelope gas of an electric high-pressure discharge lamp known for a long time (cf. German patent specification 902 528). but the Cadmiupvisatz only served to improve the color of the emitted light.

Also the German patent specification 1 184 008 and Proceedings of the IEE. Vol. 113, 1966, No. 4, p. 668 to 676. from which the addition of cadmium or a cadmium halide to the envelope gas of a discharge lamp was also known. only concern color enhancement using cadmium.

The invention is explained in more detail with reference to the drawing.

The drawing shows an inductively coupled ring discharge device according to the invention, partially in section, with a ring discharge lamp 1 from a translucent and heat-resistant material such as fused silicon oxide or quartz, translucent Aluminum oxide or beryllium oxide. Metals or their iodides and any desired Gas, like an inert gas. which can be xenon or argon are contained in the ring discharge lamp 1. There are also ignition electrodes 2 and 3 made of tungsten containing thorium oxide. An ignition device 4 with an open circuit voltage of about 1000 V and a short circuit current of about 0.1 A. is connected to ignition electrodes 2 and 3. A magnetic core 5 penetrates the ring discharge lamp 1, and a primary winding 6 is inductive with the ring discharge lamp 1 via the magnetic core 5 coupled. An electrical power supply 7 for the main discharge, which occurs at a frequency of works around 5 to 10 kHz and is available for a maximum output power of 10 kW, is with the Primary winding 6 connected.

The inductively coupled ring discharge device with the structure just described works as follows: First there is a small electric current

2 Ol1

of about 0.1 A from the ignition device 4 fed into the ignition electrodes 2 and 3 to a weak to generate electrical discharge in the ring discharge lamp 1, so that a pre-ionization of the inert Gas (xenon or argon) is generated in the ring discharge lamp. Then the primary winding 6 Current from the power supply 7 is supplied to the main discharge via the magnetic core 5 to induce in the ring discharge lamp 1. The discharge takes place at the beginning of the main discharge held in the inert gas or the vapor of a metal such as mercury, which has a considerable vapor pressure at room temperature. so that the emissions of these elements occur. With the increase in Other metals begin at the same temperature as the wall To emit light. In general, the electric field strength of the ring discharge lamp increases the vapor pressure in the ring discharge chamber. and finally a certain value arises. which depends on the type and amount of substances contained in the ring discharge lamp.

Let us now consider the relationship between the electric field strength and various parameters of the discharge device to be discussed.

If / denotes the arc length of the ring discharge lamp and S denotes the cross-sectional area of the magnetic core, the electromotive force E which is induced in the longitudinal direction per unit length of the ring charge lamp is obtained:

to

S CB ^h = / ■ c, ■ ^(U

For the sake of simplicity, it is assumed here that the magnetic field changes sinusoidally with an angular frequency «■> and that its amplitude is β,"" _x . In this case, the amplitude B _{max of} the induced electric field can be derived from equation (1) as $

In order to maintain the discharge, the electric field strength E _d in the ring discharge lamp must meet the following conditions:

The electric field strength E _d in most common mercury vapor lamps and metal halide ^{discharge lamps is essentially 2-10 3} VZm and thus exceeds the permitted limit for physically realizable inductively coupled ring discharge lamps.

From the foregoing it should be apparent that an important feature of the invention it can be seen that the substances contained in the ring discharge lamp are suitably selected are to reduce the electric field strength in the ring discharge lamp considerably. It is already known that a high emission efficiency and good color distribution with a Ring discharge lamp erzicii weruen kouiich. uic a inert gas and metals such as mercury. Sodium. Thallium and indium or their iodides. Extensive experiments and investigations carried out by the inventors have now shown that the addition of cadmium to these already known substances surprisingly leads to a considerable reduction of the electric field strength, while so far cadmium only for color improvement was used. The following table shows the arc voltage. if cadmium in different A ring discharge lamp with an inner diameter of 18 mm is added, the mercury, Thallium iodide, sodium iodide, indium and xenon contains:

Dependence of the electrical properties on the amount of cadmium added

45

S. I.

B.,

Ilcklnian performance current Elekinian field per dimension unit strength in the lamp the lamp (kW ml 4.3 (V ml 8th 6.1 2320 12th 6.0 2580 8th 8.8 1720 12th 6.3 1860 8th 8.8 1560 12th 11.3 1760 8th 14.0 840 12th 1100

In view of the saturation flux density of many magnetic materials, B _{max is of the} order of 1 Wb m ² . Furthermore, in view of the frequency characteristic of the components of the power supply, it is advantageous for practical reasons that 2 .τ = 10 ⁴ Hz. In practice, the usual dimensions of the arc length / of the ring discharge lamp and the cross-sectional area S of the magnetic core are / = 0.5 m and S = 10 ~ ² m ² , although deviations can also be made depending on the shape of the lamp and the magnetic core. Substituting these values for S. I and B _max into equation (3) results in the following condition for maintaining the discharge:

E _ä < 10 ³ V / m.

Although the numerical values given above leave a certain leeway for a fairly free choice, it is obvious that in general many advantages can be achieved with a ring discharge lamp which has a lower electric field strength E _d .

Cadmium bacteria

(mg)

0.6

2 *)

*) No mercury present, while xenon only has one Pressure of 465 torr is melted down.

From the table above it can be seen that the addition of cadmium increases the electric field strength in the Ring discharge lamp reduced. Especially the last line of the table shows that the lamp voltage is greatly reduced if no mercury and xenon are present at a slightly higher pressure than usual is.

The reason why the addition of cadmium causes such a reduction in lamp voltage, has not yet been clarified exactly. However, the following experimental results were obtained. That means the spectroscopic examination of the intensity of the spectral lines and the temperature of the plasma showed at different points between the central axis of the discharge lamp and the lamp wall, that mercury and cadmium in an area of relatively high temperature near the lamp

axis light up while other metals in one Light up the area of relatively low temperature near the lamp wall. That's true with the fact agree that the excitation energy for mercury and cadmium is higher than that of the group of other metals. The high temperature area of the lamp located on the axis is basically influenced by the addition of cadmium, and the temperature in this range becomes about 6000 K. as it occurs without the addition of cadmium, to about 5000 to 4000 K with increasing cadmium amount decreased. The outside temperature range near the wall of the lamp is essentially free of added cadmium, and the temperature in this range is 2000 to 4000 K. Hs seems. that such a decrease in heart rate in the The proximity of the lamp axis is associated with the decrease in lamp voltage.

The cadmium-containing discharge lamp therefore shows a good color distribution and a high color distribution E: emission effect rad. When the discharge lamp Cadmium, but does not contain mercury, in order to improve the emission efficiency, it is advisable to to fill an inert gas at a considerably higher pressure. For example, if xenon is below a pressure of more than 300 torr or argon is filled under a pressure of more than 500 torr.

the emission of the discharge lamp is about 80 Im, W and more.

It should therefore be seen that through the invention an inductively coupled ring discharge lamp with a reduced field strength due to the Filling the lamp with cadmium is indicated. The discharge device according to the invention comes therefore with an electrical, power supply with a relatively low frequency, and the dimensions of the magnetic core and the discharge lamp can be kept small.

The invention is also applicable to a discharge lamp that emits coherent light, more precisely In other words, with a laser discharge lamp. It has recently been observed that a discharge by a metallic element such as copper. Lead or manganese, also creates a laser beam. It is also common to obtain the discharge lamp in an electric furnace, which is rather expensive. about steam to produce these metals. It should be apparent that the invention also applies to such discharge lamps Can be used to achieve a sufficiently high vapor pressure at a temperature which is significantly lower than that which can be achieved with a simple substance of these metallic elements is. so as to easily generate a laser beam.

1 sheet of drawings

Claims (1)

2 Oil 314 Claim: Ring discharge device with a closed ring discharge lamp and with a device for the inductive coupling of high-frequency power into the ring discharge lamp by filling gas containing cadmium, the cadmium of which is used to lower the electric field strength in the ring discharge lamp serves so that the high frequency power can be relatively low frequency.