DE1539595B1 - Discharge lamp - Google Patents

Description

The invention relates generally to sources of heat and light radiation, and more particularly to one Discharge lamp for such a purpose.

Discharge lamps used as heat and light sources are often elongated. You wise generally a tube made of transparent material, such as quartz, which has a discharge space forms in which arc electrodes are arranged. The electrodes are generally arranged concentrically to the longitudinal axis of the discharge space.

A known discharge lamp has a gas inlet and a gas inlet to stabilize the discharge arc Gas outlet opening on, the total inlet opening for generating a vortex movement of the entering Gas, approximately in the middle between the two electrodes, tangentially into the discharge space opens, while one of the two electrodes has an axial gas outlet channel.

There is also a discharge lamp with a rod electrode is known, which inside a nozzle with a tapered gas inlet passage is arranged, the tip of this electrode in the constricted Passage is located, as well as with a second, opposite electrode, the nozzle with a supply of inert gas is connected. In this device, the discharge space is for the same purpose Part of a line system which is used to circulate the nozzle gas and the supplementary electrode provided with an axial passage.

It has been shown, however, that these known devices because of the gas turbulence that occurs could not meet the increasing demands on stability and luminance.

The object of the invention is therefore to provide a discharge lamp to create a long arc with a higher degree of stability as well has a higher radiation intensity than before.

According to the invention, a discharge lamp of high radiation intensity, each with an electrode on ' the ends of the discharge space enclosed by a translucent tubular envelope with a gas inlet opening tangentially into the discharge space for generating a vortex movement of the inlet gas and with an axial gas outlet located in only one of the two electrodes intended.

The invention is characterized in that the gas inlet opening into the discharge space is located is located at the end of the discharge space at which the electrode provided with the axial gas outlet is also located lies.

With this arrangement, the fluidizing gas flows along the inner surface of the tube, which is the discharge space enveloped, to the opposite end of the pipe, where a current reversal takes place and the gas to the central outlet channel in the area of the central axis of the discharge space and flows out of the channel. This flow pattern results in a perfect low-pressure area on the axis of the discharge space, where the arc occurs. The phenomenon of the generation of the low pressure zone can be with can be compared to that of a tornado. There is also a rotating mass of gas there, which is a central Surrounding column of even faster rotating gas. Since each gas particle follows a path of decreasing Radius spirals inwards, its tangential speed increases. Since that If the moment is retained, the centrifugal force also increases. The pressure gradient causes against this force hence the pressure is lowest in the center. The overall effect of this tornado phenomenon is the formation of an aerodynamic nozzle that controls the cross-sectional area of the arc and its stability elevated.

Because of this phenomenon, a long, extremely stable, high intensity arc is achieved with the invention. In fact, with the present invention, arcs of 10 to 13 cm in length with current densities of 1000 amps / cm ² at extraordinary pressures in the discharge space have been obtained. There is thus an essential difference in the formation of the arc, whether the gas flows in at the end of the discharge space at which the electrode provided with a central gas outlet channel is located, or whether the gas is introduced from both ends of the discharge space with a single gas outlet channel.

The invention further includes the use of rare earths in addition to the stability obtained also at the same time the intensity of the arc as Increase light source. The rare earths can be in the device in powder form or preferably can be entered in stick form. In the latter case, the rod itself acts as an electrode opposite that which has the central gas outlet channel.

Further features, advantages and possible applications of the invention emerge from the following description in conjunction with the drawing.
It shows

F i g. 1 shows a vertical longitudinal section through the discharge lamp according to the invention,

Fig. 2 is an enlarged cross section through the Discharge lamp of line 2-2 of FIG. 1,

F i g. 3 is a diagram showing the dependence of the intensity on the wavelength during operation of the inventive Represents discharge lamp with argon gas, and

F i g. 4 a characteristic spectrum in which the effect of entering rare earths into the Argon gas arc is shown.

As can be seen from FIGS. 1 and 2, the device shown generally has a gas discharge lamp T with an electrode 10 which is axially aligned with the nozzle electrode 12 and is separated from it by a gas-tight discharge space 14. The electrode 10 is stored in a suitable holder 16. Both electrodes can be cooled, for example by means of water cooling. The electrode 10 is preferably made of an emission material, such as, for example, tungsten or thorium-containing tungsten Copper.

An arc 18 is created and sustained by connecting the electrodes to the energy source 20 get connected. Both direct current and alternating current can be used. The discharge can be initiated using suitable devices such as high frequency ignition.

The discharge space 14 is in a tubular shape Sheath 22, of which at least a part is completely or partially transparent. As a see-through

Wall material, for example, quartz can be used.

A long, narrow, intense arc 18 with extreme stability is achieved by using the new achieved formation of a fluidizing gas flow according to the invention.

As shown in Figs. 1 and 2, the arc gas occurs through the inlet 24 into the annular space 26, from where it passes through several tangential openings or slots 28 flows to be vortexed while it flows towards the opposite The end of the discharge space 14 flows along the inner surface of the envelope 22. If it is that reaches the opposite end, the direction of flow of the gas is reversed, moving the gas back to the nozzle end, in close proximity to the arc 18, being the vortex shape the flow is maintained. The gas then flows through channel 30 in the nozzle electrode 12 to the outside. This gas flow acts in the same way as a tornado by it creates a low pressure or negative pressure zone in the area of the central axis of the chamber where the Arc 18 forms.

The new flow guide according to the invention not only provides an arc 18 of high density and stability and considerably greater lengths than about 2.5 cm, but it also protects the transparent envelope 22 very effectively from the heat effects of the arc. The invention thus enables an arc to be generated and operated with a density of at least 1000 amps / cm ² without damaging the transparent envelope 22.

In the practical implementation of the lamp according to the invention, any inert gas from the group Argon, Xenon and Krypton can be used.

F i g. 3 shows typical operating conditions and those achieved at different wavelengths with argon gas Intensities. The data were obtained with a discharge lamp Γ of the type shown in FIG. 1 achieved. However, a tungsten "button" electrode was used in place of the stick electrode 10.

As pointed out above, the invention also involves the use less frequently Grounding in order to increase the brightness or luminance of the arc while maintaining the stability of the arc, in order to be able to use the device particularly advantageously as a light source. This is preferred achieved by using a rare earth rod in place of the rod electrode 10. This Rare earth rod then works like a melting electrode. When the electrode melts, the rare earth enters the arc and significantly increases its luminosity.

In Fig. 4, the upper curve shows the effect of Input of rare earth in an arc, with argon gas supplied to the discharge space according to FIG. 1 became. The rare earth was in the form of a consumable used in place of the rod electrode 10 Electrode supplied.

Claims (6)

Patent claims: 1. Discharge lamp of high radiation intensity, each with an electrode at the ends of the a transparent tubular envelope enclosed discharge space, with a tangential Gas inlet opening into the discharge space for generating a vortex movement of the Inlet gas as well as with an axial gas outlet located in only one of the two electrodes, characterized in that the one which opens into the discharge space (14) Gas inlet (24, 26, 28) is located at the end of the discharge space at which the with the axial gas outlet (30) provided electrode (12). 2. Discharge lamp according to claim 1, characterized in that the gas outlet (30) having Electrode (12) has a section extending into the discharge space (14) has a smaller diameter, on the circumference of several evenly distributed inlet openings (28) open. 3. Discharge lamp according to claims 1 or 2, characterized in that the the the Outlet (30) having electrode (12) opposite electrode (10) in the form of an in the The axial projection extending into the discharge space (14) is mounted in a holder (16), wherein the holder closes the end of the discharge space (14). 4. Discharge lamp according to claim 3, characterized in that the axial projection of a tapered end of an electrically conductive, received in the holder (16) Rod (10) is formed. 5. Discharge lamp according to claim 4, characterized in that the electrically conductive rod (10) consists of a metal from the rare earth group. 6. Discharge lamp according to claims 1 to 4, characterized in that the gas inlet (24,26,28) with a supply source containing rare earths in the form of metal powder communicates. 1 sheet of drawings