DE1146589B - Electric high pressure discharge lamp with magnetically stabilized discharge arc - Google Patents

Description

The invention relates to high pressure discharge lamps, in which the discharge arc is stabilized by a magnetic field.

Several possibilities for influencing discharge arcs magnetically are already known. The required magnetic field is usually between the poles of an outside of the discharge lamp lying permanent or electromagnet generated. The magnets as well as the poles can be shaped very differently, so that they both over the discharge lamp and to the side of the discharge lamp or in part also in depressions in the bulb near the electrodes are. It is also known to hold the discharge lamp firmly between the pole pieces of a permanent magnet or to arrange an electrode magnet with an iron core. For the special case of the horizontal The burning position of the discharge lamp is also known, one of the power supply lines parallel to the discharge to lay or both power supply lines to each other parallel and perpendicular to the lamp after this lead away at the top or outside of the discharge lamp, its upstream coils, their magnetic Stray field acts in the opposite direction to the convection current generated in the lamp use.

The previously known arrangements for magnetic influencing of the discharge arc have the disadvantage that when the position of the lamp is changed, the means for magnetic influencing are also used the discharge must be changed. To achieve such a change there is already a device been described in which tried in a technically unfortunate way by means of a pendulum is to effect an automatic adjustment of the magnet and therefore the magnetic field.

The invention now provides a simple and elegant solution for magnetic influencing and stabilization of the discharge arc of high-pressure electric discharge lamps. The high pressure discharge lamps according to the invention with a magnetically stabilized discharge arc and a vessel, which has two electrodes carried by their power leads fused into the vessel characterized in that at least one electrode is arranged in the lamp axis emitting part has, in the vicinity of which a coil lying with its axis in the lamp axis is attached which is the electrical connection from the power supply to the emitting electrode part manufactures and their turns from each other an electric high pressure discharge lamp

with magnetically stabilized

Discharge arc

Applicant:

Patent trust company

for electric light bulbs m. b. H.,

Munich 2, Windenmacherstr. 6th

Dipl.-Phys. Horst Schlegel, Berlin-Kladow,
has been named as the inventor

Have a distance so that the current flowing from the lead to the emitting electrode part the Turns of the coil and generates an axial magnetic field in the lamp that stabilizes the arc.

Electrodes designed in this way cannot be compared with electrodes showing a high cathode effect or with the usual filament electrodes, which are also arranged in the direction of the discharge lamp axis can be, but in which the windings are short-circuited, e.g. B. by touch of the turns with each other or through a core made of electron-emitting material in the helix Material such as thoriated tungsten or the like. The electrodes according to the invention are also not to be compared with those of a known arrangement in which activated electrodes with barium oxide thin tungsten rods are used, which are supported by a tungsten filament protruding beyond the rod a diameter of 1 mm or surrounded by a metal cylinder protruding beyond the tungsten rod are. The coil or the metal cylinder is intended to cover the part of the electrode lying around the electrodes Shield the bulb wall from the activated part of the electrode in order to blacken the bulb to prevent. The similarly uniform cylinders serve as a shield against the atomizing particles Turners also lie with their axis in the direction of the discharge lamp axis, and the turns the coils even have a small distance from one another. But with the electrode that is the cathode at a given moment, the discharge is activated at the previous one in the filament Part of the electrode as the point of smallest exit

309 548/157

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work on. Accordingly, the turns of the application of the equations applicable to them Electrode either in the discharge plasma and is apparently not enough, and it was for the the thereby short-circuited, or the discharge the application of the exact solution to the problem runs in the coil interior, so that plasma dynamics are also necessary in this. With these considerations If the turns of the coil are not from the current 5 must also, for. B. when using the lamps for are flowed through. In the case of the electrode, which is used for projection purposes, take into account that the known arrangement in a given arc of the eye in no case rotates around the axis and looks at it Is anode, the approach to the arc is not rotationally stabilized by, i. H. fixed at level. A lamp position on the right side of the anode may not be deflected by the forming magnetic field can take place except because of its convection current, but that nevertheless through the variability given by this, also because of the rotation of the arc attachment on the electrode an inseiner Much too much for the dimensions of the electrode. Stability of the arch and constant displacement wrestling field strength does not stabilize the arc. the focus of light occurs.

In the case of the coils according to the invention, the calculations and considerations and

the coils do not; they are also not through the 15 after the experiments has now been found to be beneficial Discharge short-circuited because, as already mentioned, it was proven if only one of the electrodes, namely the coil is the electrical connection of the current - preferably the cathode with a coil as the electrical supply to the emitting part of the electrode dar- Irish connection from the power supply to the represents. Thus, all turns of the coil are provided by the emitting electrode part. The sink Lamp current flows through it, so that after commissioning it can be cylindrical or conical and can also would take the current flowing through the coil from the lamp within certain limits from the circular shape generates an axially symmetrical magnetic field, which have a cross-section. The emitting whose field lines are essentially parallel to the axis part consists of a tungsten rod and has a lie and its stabilizing effect is so great, from the foremost turn of the coil on the that the arc is not only in the vertical but also in the anode pointing tip. As a holder for the in any up to + 120 ° from the vertical rod-shaped emitting part this serves the purpose The lamp burns steadily depending on the position of the lamp. Extended end of the lamp facing the interior

The stabilization prevents that with an inclined coil, which is expediently around the rod or horizontal burning position of the high-pressure lamp is wound. This part of the coil has no one Discharge arc due to the convection current 30 must affect the magnetic field, as the windings through is deflected upwards, as is well known when the tungsten rods are short-circuited and also unstabilized arches is the case. That did not have the lamp current flowing through it. the great advantage that the risk of a local over- other electrode is rod-shaped and at its the heating of the piston wall is avoided and the end facing the discharge is conical, the fact that when the lamp is used in a device, however, both electrodes can also be connected to one housing with optical imaging elements must not be provided with a coil.

Difficulties arise; the arc burns in the An embodiment of a lamp according to the

Lamps according to the invention quiet, and the light invention is shown in Figs. The center of gravity remains in the lamp axis. It is true that Fig. 1 shows the overall view of a lamp;

As already mentioned, known, the arc through a 40 Fig. 2 gives a section through the cathode of a Magnetic field whose field lines are perpendicular to that produced by such a lamp.

Buoyancy direction and arc axis formed plane In Fig. 1, the bulb 1 of the lamp is made of quartz beds, to push back into the normal position. Made after the glass. The anode · 2 consists of one However, the present invention has the major disadvantage of solid tungsten rod. The anode 2 opposite this known, with an outer magnet arrangement 45, the coil separation is found at a distance of 10 mm operated lamps avoided the field for cathode 3. The lamp bases 4 and 5 are in the for a certain lamp position is carried out exactly according to the usual high-pressure lamps. the to have to adjust - as z. B. The searchlight lamp is filled with xenon; the filling pressure is launchers is required - what a rapid change - some atmospheres. The operating current of the lamp tion of the location of such lamps not previously possible 50 is at a power consumption of 2 to 3 kW appear Hess. between 65 and 80 A. The lamp is connected to 110 V.

When generating the axially symmetrical Ma- DC voltage applied. The lamp can be used in a vertical position gnetfeldes in the lamp was in analogy to the Elek position, with the anode on top, and in tronenoptik assumed that each rotationally inclined each up to ± 120 ° 'deviating therefrom symmetrical field with respect to its axis focusing 55 position.

The electrode 3 shown in Fig. 2 is made of tungsten

Theorem. It was assumed that there is wound wire 6 with a diameter of 3 mm. The inside of the arc over the plasma electrons in a similar diameter to the magnetic field generating, influence Ueße in four ways, as is the case with electrons in the coil 7 existing in the windings is 19 τητη . The vacuum is known. The electrodes of the lamp were constructed with 60 turns 8 at a distance of 0.5 mm from them in such a way that the field lines of them meet one another. The end of the coil 7 is wound around a tungsten-generated field to the axis - at least a total rod 9. This part of the coil 7 is used approximately - are rotationally symmetrical, in the surrounding area only to hold the tungsten rod 9 and has, as the axis is parallel to this and already mentioned, no influence on the magnetic field, greater distance from the axis to the Spulenelek - 65 The tungsten rod 9 protrudes with its tip 10 to converge approximately trode. It was now found that 10 mm protruded from the coil 7. Despite a certain similarity in the arc behavior, the elongated side surfaces of the tip 10 of the tungsten rod 9 with the behavior of a free electron beam enclose an angle of 45 ° with one another.

The lamp has a luminance of about 16 ksb and a luminous intensity output perpendicular to the lamp axis measured at 3.6 cd / W, the light output of the lamp is about 35 Im / W. The one present in the lamp Magnetic field is about 10 to 40 Oersted, the field near the cathode being stronger than in near the anode.

The dimensions must be accurate to the particular construction chosen and the operating data of the lamp be adjusted. It is important to note the arc length, the coil diameter and the distance the cathode tip from the first coil turn and the current intensity control range, which determines the field profile influence, coordinate with each other.

The magnetic influence of the discharge arc due to the special design of the electrodes according to the invention also applies to lamps filled with other noble gases or metal vapors applicable with operating pressures above 5 atmospheres, with the magnetic field generated in the lamp Can be 5 to 100 oersteds.

The lamp according to the invention is because of its position independence, i. H. yours also in oblique or horizontal position, calmly burning arch, independent of external stabilizers, versatile usable. It is particularly beneficial that certain devices such as headlights or special projection devices due to the possible horizontal burning position of the lamp deeper mirrors, d. H. Mirrors with stronger curvature (paraboloid mirror) can be used and thereby higher useful luminous flux can be achieved.

The magnetic stabilization makes it possible to make the electrode spacing larger and thus achieving greater arc lengths. Among other things, this allows for a more uniform projection Illumination of z. B. achieve rectangular picture windows. The lamp is ideal for use in optical assemblies designed for larger sheet dimensions are e.g. B. for sea mark beacons, for which only charcoal arcs were possible up to now.

Claims (7)

PATENT CLAIMS: 1. Electric high-pressure discharge lamp with a magnetically stabilized discharge arc and a vessel which has two electrodes carried by its power supply lines melted into the vessel, characterized in that at least one electrode has an emitting part arranged in the lamp axis, in the vicinity of which one with its axis in the Coil lying on the lamp axis is attached, which establishes the electrical connection from the power supply to the emitting electrode part and whose turns are spaced apart so that the current flowing from the supply to the emitting electrode part follows the turns of the coil and an axial stabilizing arc in the lamp Magnetic field generated. 2. Electric high-pressure discharge lamp according to claim 1, characterized in that the emitting part of one electrode consists of tungsten and rod shape as well as one of of the foremost turn of the coil has a tip pointing towards the anode. 3. Electric high-pressure discharge lamp according to claim 2, characterized in that the rod-shaped emitting part of one electrode from an extension of the lamp interior facing end of the coil is worn. 4. Electric high-pressure discharge lamp according to claim 3, characterized in that the the rod-shaped emitting part of the one electrode-carrying extension of the coil around this is wrapped around. 5. Electric high-pressure discharge lamp according to claim 1 to 4, characterized in that that the coil is cylindrical. 6. Electric high-pressure discharge lamp according to claim 1 to 5, characterized in that that the magnetic field generated in the lamp between the electrodes is 5 to 100 oersted, preferably 10 to 40 oersteds. 7. Electric high-pressure discharge lamp according to claim 1 to 6, characterized in that that the other electrode (2) is rod-shaped. Considered publications:
German Patent No. 716 509;
Swiss patent specification No. 199 305. 1 sheet of drawings 1 309 548/157 3.63