DE2311620C3 - Electrode for short-arc gas discharge lamps and process for their manufacture - Google Patents

Description

The invention relates to an electrode for short-arc gas discharge lamps made of high-melting point There is metal, the end of which facing the discharge is conical and the one on the axis of the cone has lying recess in which there is a quantity of thorium metal, with the lamp in operation Transport of thorium metal to the tip of the cone essentially by diffusion through the electrode material takes place through.

During operation, short-arc gas discharge lamps have a vapor pressure higher than 10 atm and an electrode spacing smaller than the maximum diameter of the discharge space. The gas filling in which the discharge occurs, consists in most cases essentially of mercury; however, it can also consist of a Noble gas such as xenon exist.

The electrodes of the short-arc gas discharge lamps usually consist of two tips with one another cones arranged opposite, between which the arc burns when the lamp is in operation. At a In a lamp for direct current operation, the electrode acting as an anode can, however, also be spherical. It is it is not necessary that the entire electrode be conical; also electrodes that consist of a conical part and a subsequent z. B. consist of a cylindrical part, are hereinafter referred to as conical electrodes designated. Furthermore, electrodes with a conical end part, in which the cone tip z. B. is spherically rounded, viewed as conical electrodes. the

The term "conical electrode" in this description also includes an electrode which is pyramidal at the end facing the discharge. When such a lamp is switched on, an arc arises between the electrodes, which usually does not start at the cone tips, but at another point on the electrode. By heating the electrodes as a result of the passage of current, the discharge path becomes shorter until, when the operating temperature is reached, the arc engages right at the tips of the conical electrodes. The result is a very small luminous area that emits a bright light. Such lamps are therefore particularly well suited for use in optical systems / and projection purposes.

Since, in a discharge lamp of the type described, the electrodes are thermally very strong during operation are stressed, only materials that are very high temperatures come into consideration for these electrodes can tolerate.

That is why the drain electrodes are usually made of Tungsten or an alloy containing tungsten as the main element. It is desired that the Electrode, which is effective as a cathode during operation of the lamp, has a low exit potential, so that good electron emission results. If the lamp is intended for AC voltage operation, are both electrodes act alternately as anode and cathode. In this case, of course both electrodes have a low exit potential.

A measure that is frequently used to lower the exit potential of an electrode is its use the aforementioned heat-resistant materials, in particular tungsten, in thoriated form, d. i.e. that the electrode material a small amount of thorium oxide, e.g. B. 1 to 3 wt.% Contains. The thorium oxide Yeasts operate the lamp in small amounts of thorium, which is a material with large emission of electrons is.

A disadvantage of the aforementioned electrodes made of thoriated tungsten is that those with these electrodes provided lamps have a shortage of emission material after a certain operating time (e.g. after 500 burning hours) at the tip of the electrode. This defect arises from insufficient subsequent delivery of thorium from the electrode material. This is due to recrystallization occurring at high temperature of the electrode tip, through which the area available for thorium diffusion along the Crystal grain boundaries is greatly reduced. The lack of emission material at the electrode tip has the consequence that the arch becomes unstable, because it attacks the point on the conical surface where there is still one sufficient subsequent delivery of thorium takes place. Also

at this point there is a recirculation, whereby the point of attack is shifted again. The mentioned instability is very annoying, especially with Using the lamp for projection.

Another disadvantage of electrodes made of thoriated tungsten is that the electrode only Can contain relatively little thorium, which makes the electrode tip necessary for diffusion available thorium is rapidly depleted. When the amount of thorium necessary for electron emission can be effective, is exhausted, the temperature of the electrode is unacceptably high, thereby deforming the electrode. Furthermore, as a result of the resulting very high Electrode temperature strong evaporation of tungsten, so that strong blackening of the wall of the Discharge vessel occurs. The disadvantage mentioned can be eliminated by replacing thorium oxide metallic thorium is used, which is housed in a space in the electrode.

Such an illegal electrode mentioned at the beginning is off the US-PS 32 63 115 known. The one filled with thorium The recess in this electrode is closed by means of a plug made of tungsten, through which the Thorium diffused through. For this, however, a very high diffusion pressure is required, which means that the electrode has to be heated very strongly.

From GB-PS 8 64 234 a conical electrode for short arc gas discharge lamps is known, whose cone is provided with a wide open slot. The purpose of the slot is to create sharp edges on the To obtain the electrode, whereby the discharge by means of an auxiliary discharge between the electrode and a arranged in their vicinity auxiliary electrode can be easily ignited. It is mentioned that the Surface of the slot can be coated with a layer of thorium as an emission material. It has ausgestel! ,, that this electrode has the disadvantage of an unstable discharge, because the The electrode has two points at the tip where the discharge can alternate. Furthermore, the Electrode has the disadvantage that if thorium is used, this thorium evaporates quickly and a Brings about blackening of the discharge vessel.

The same applies to a lamp electrode known from DT-AS 10 53 664, the recess of which the Has the shape of a conical recess, the tip of which merges into a hole, which is filled with electron-emitting Fabric can be filled.

The aim of the invention is to provide an electrode for short-arc gas discharge lamps to create that to reduce the exit potential with a supply of one Electron emission material is provided and with which is stable over the life of the lamp Discharge is obtained.

An electrode for short-arc gas discharge lamps of the type mentioned at the beginning is according to the invention characterized in that the recess is in the form of a narrow slot that coincides with the conical surface is in communication and is closed at the tip of the cone by a pressure welded connection.

Since the recess in this electrode is practically only compressed at the tip of the cone, A fine channel remains here for the thorium to diffuse through. The electrode according to the invention has a thorium supply large enough to keep the electrode tip connected to the eut to provide electron-emitting thorium. The supply of thorium to the electrode tip when it is burning The lamp takes place along the crystal boundaries of the electrode material. This supply is predominant guided in the direction after the electrode tip, so that the lamp during the entire service life has a stable discharge. The pressure weld connection provides good shielding of the thorium supply against the discharge arc. The electrode has the further advantage that as a result of the welded connection Crystal boundaries that are present in the electrode material or by recrystallization during operation have arisen, have a preferred direction towards the electrode tip. As a result, the Diffusion of thorium almost exclusively in the direction towards the electrode tip. Next has this Electrode has the advantage that it can be easily degassed during manufacture of the lamp because of the Slot and the thorium metal located therein are in communication with the discharge space.

An advantageous embodiment of an electrode according to the invention is characterized in that the Width of the slot with the distance from the cone mushrooms increases that the maximum width of the Slot at least 0.05 mm and at most 0.25 times the diameter of the base of the cone and that the depth of the slot is 4 times to 50 times the maximum width of the Slot is.

The maximum width of the slot is preferably ;: at most 0.10 times the diameter the cone base area, while the depth of the slot has a value between 15 times and 25 times the maximum width.

The material for the electrode in a lamp according to the invention is preferably tungsten or a Main element tungsten-containing alloy is used because these materials can withstand high temperatures be able. The materials mentioned can also be used in thoriated form.

An electrode according to the invention is preferably made according to a method according to the invention produced, which is characterized in that a cylindrical rod or wire from a high-melting point Metal at one end is provided with a rectangular slot that is on the axis of the rod or Wire lies and extends in the radial and axial direction to the outer surface of the rod or wire extends, and that the slot is completely or partially filled with metallic thorium, after which it means a pressure weld connection at the end of the rod or wire is closed, whereupon the end finally, z. B. by grinding, is designed to be conical.

The invention is explained in more detail below with the aid of an exemplary embodiment shown in the drawing explained. In the drawing shows

F i g. 1 the electrode in a short-arc gas discharge lamp,

F i g. 2, on an enlarged scale, the electrode of the lamp according to FIG. 1 serving as a cathode.

The lamp according to FIG. 1 is a short arc xenon discharge lamp, which consumes around 1600 watts in operation. The lamp is a direct current lamp executed and contains a discharge vessel 1 made of quartz glass and filled with xenon Anode body 2 made of tungsten, which is attached to the vacuum-tight power supply line 3 on tungsten is. The cathode is denoted by 4 and consists of a cylindrical rod with a diameter

of 3 mm.

The rod 4 consists of tungsten, which contains a few percent thorium oxide. The electrode 4 has a conical shape End 5 and is provided with a slot 6. This slot 6 is closed at the top and contains a supply of thorium metal.

F i g. 2 shows the cathode of the lamp of FIG. 1 on a greatly enlarged scale in section. The cylindrical Cathode 11 made of thoriated tungsten has a conical end portion 12. The end of the cathode points a recess 14 which has been produced by grinding out a rectangular slot. This The slot is partially filled with a thorium plate 15. The slot is through a spot welded connection 16 closed at the end. As a result of this

When spot welded, the slot has a width that increases with distance from the tip. The electrode tip 13 is made of thorium metal when the lamp is in operation provided, which originates from the thorium supply 15 by diffusion essentially along the Crystal planes, e.g. B. along the spot welding plane 16 which extend in the direction of the tip 13. the The conical base area of the cathode 11 has a diameter of 3 mm. The slot 14 has a depth of approximately 3 mm and a maximum width of about 0.15 mm. It turns out that a lamp of the type shown in Figs. 1 and Fig. 2 shows a stable construction over its entire service life (approximately 2000 burning hours) Has discharge.

1 sheet of drawings

Claims (5)

Patent claims: 1. Electrode for short arc gas discharge lamps, which consists of refractory metal, the end of which facing the discharge is conical and which has a recess lying on the cone axis in which there is a quantity of thorium metal is located, with the transport of thorium metal to the cone tip essentially during operation of the lamp takes place by diffusion through the electrode material, characterized in that that the recess (14) has the shape of a narrow slot which is in Connection is and is closed at the cone tip (13) by a pressure welded connection (16). 2. Electrode according to claim 1, characterized in that the width of the slot (14) increases with the distance from the cone tip (13), that the maximum width of the slot is at least 0.05 mm and at most 0.25 times the diameter the conical base area and that the depth of the slot is equal to 4 times to 50 times the maximum width of the slot. 3. Electrode according to claim 2, characterized in that the maximum width of the slot (14) is at most 0.10 times the diameter of the cone base and that the depth of the Slot is equal to 15 to 25 times the maximum width. 4. Electrode according to one of claims 1 to 3, characterized in that the conical end (12) of the electrode (11) made of tungsten or of an alloy which contains tungsten as the main element, or consists of these materials in a thoriated form. 5. A method for producing an electrode according to claims 1 to 4, characterized in that that a cylindrical rod or wire made of a refractory metal at one end with a narrow rectangular slot is provided which lies on the axis of the rod or wire and is in extends radially and axially to the outer surface of the rod or wire, and that the slot is completely or partially filled with metallic thorium, after which it is by means of a Pressure weld connection at the end of the rod or wire is closed, whereupon the end finally, z. B. by grinding, is designed to be conical.