DE440044C - Rectifier with tungsten glow cathode - Google Patents

Description

Rectifier with hot cathode made of tungsten. The invention relates to a rectifier which rectifies alternating current in a similar way Current and voltage range like the mercury rectifier enables and in one Discharge vessel with a hot cathode that emits electrons and one or more Anodes.

An essential feature of the subject matter of the invention is that in contrast to earlier rectifiers of a similar type in the discharge vessel nitrogen, Argon or mercury vapor is present at a pressure selected so high that that the sputtering of the cathode is prevented or substantially reduced. The pressure is several millimeters or centimeters of Hg and can, in contrast to the highly diluted Gas residue that is present in a vessel can be described as considerable, which is vented up to the so-called lamp vacuum, if necessary after the previous one Displacement of the air by an inert gas. Beyond the admissible pressure follow further More details below, as well as the electrical properties of the new one Rectifier similar to that of an electric arc.

Another essential but known feature of the subject matter of the invention is that tungsten or another metal is used as the cathode, the Tolerates temperatures of 2ooo ° C and above. Are tungsten and similar metals a primary source of electrons in contrast to a clean surface in the glow state to the difficult-to-melt ones already used as hot cathodes in rectifiers Oxides, which are a secondary electron source as a result of unexplained ionization form. The anode or anodes are in the subject matter of the invention from such Metal and chosen of such dimensions that their temperature due to heat dissipation remains below 100 ° absolute temperature. At this temperature, the emission of electrons are relatively neglected. The discharge vessel that these electrodes is, as already mentioned, with nitrogen, argon or mercury vapor filled with relatively considerable pressure. Strongly electronegative gases, such as Water vapor, chlorine, oxygen and the like should be carefully excluded.

The figures show three exemplary embodiments in diagrammatic form in Fig. 1, 3 and 4, while Figs. 2, 5 and 6 show associated circuits schematically. The rectifier according to Fig. 1 serves to rectify both half-waves, the devices according to Fig.3 and 5 for rectifying the alternating half-waves.

The rectifier for all half waves according to Fig. I consists of a vessel i, expediently made of glass, with three side arms 2, 3 and 4, which are used for receiving and airtight sealing of the power supply wires are used. The lead wires 5 and 6 for the cathode 8 are made of tungsten, which is made directly into a foot 7 a glass of low expansion coefficient, e.g. B. i \ Tatrium-Magnesium-Borosilikat, melted down. The cathode 8 consists of a thread made of tungsten or a another material that is difficult to melt and is replaced by a suitable one during operation Power source, e.g. B. a battery 16 (Fig. 2), brought to glow. In some cases the heating current can be switched off after the discharge has started, namely if the gas pressure is high and enough heat is generated by the arc, to keep part of the cathode glowing enough.

The anodes g and io are relatively much larger than the cathode and expediently have a disc shape, as shown in Fig. i, while setting up According to Fig. 3, the anode is advantageous for rectifying the alternating half-waves has the shape of a cup or cylinder i i surrounding the cathode. The lead wires 12 to the anodes can also preferably consist of tungsten and directly melted into the glass feet 13 and 14 made of glass with a low coefficient of expansion be.

The glass vessel is well vented in a known manner by doing this heated and applied to gradually increasing voltage - so that the electrodes by electron impact become incandescent and all noxious gases to be driven out of them. Then nitrogen, argon or a droplet of mercury, as Fig. i at 15 shows, inserted into the vessel. The gas pressure is pretty high d. H. a few millimeters to a few centimeters of Hg, to choose. Anyway, the pressure should be high enough to prevent the electrical sputtering of the cathode from the ion bombardment largely suppressed. When the cathode works in mercury vapor, are lower pressures are permitted than in a gas such as argon or nitrogen. If the Gas pressure is low, e.g. B. for mercury vapor below about 1 cm Hg, then it is necessary, to a degree dependent on the voltage, to ensure that more electrons are emitted at the cathode than are necessary for conducting electricity would be by z. B. the cathode temperature is increased. This is to the Cathode creates a negative field and the bombardment of the cathode by positive Ions and their atomization by the presence of these electrons, which are evident returning to her diminishes.

At higher pressures, the electrical sputtering of the cathode is corresponding less and the useful life of the device correspondingly greater, so that strong electron emission is not required for long life. However, high electron emission can be used even at higher gas pressures. The thermal atomization is also lower at higher gas pressures. If the Gas pressure increases beyond a certain limit, which depends on the nature of the gas, and in the case of mercury vapor is about 1 cm Hg, then the voltage drop increases in the discharge tube. In most cases, however, it is desirable to have one To work gas pressure, which is above the range of the lowest voltage drop in order to achieve a reasonable service life. But if currents of lower Voltage rectified and the best efficiency is to be achieved, then like for the sake of efficiency it may be advisable to sacrifice something in terms of service life and to work at the pressure that corresponds to the smallest voltage drop; usually but this is not desirable.

If mercury vapor is used as the ionizable gas, then the size should be of the vessel is chosen so that it works at a temperature at which Evaporate sufficient quantities of mercury to give the desired pressure.

As Fig.2 shows, the anodes and ro can be connected to the poles of an alternating current source, e.g. B. the secondary winding of a transformer 17, while the cathode 8 with the interposition of the direct current consumer 18 and a resistor i9 is connected to a middle terminal of the transformer. After the necessary connections have been made, the device is started by closing the switch 20 in the heating circuit 21, which is fed, for example, by a battery 16, in that this causes the cathode to glow.

The anodes should be of such a size that the heat is removed from them is removed to such an extent that they remain below the temperature at which an appreciable emission of electrons takes place in order to reverse the passage of current Direction to prevent during the half-waves, during which the anode in question is negative.

With rectifiers of the type described, currents of many Amperes, the number of which depends on the size of the device, are rectified, without any current discharge in the opposite direction and with a low voltage drop, which for mercury vapor is about 8 to 15 volts and fluctuates slightly, depending on the nature of the gas filling, the gas pressure, the cathode temperature and others Circumstances. If the current to be rectified has a voltage up to a few hundred Volts then the cathodes and the anodes in the from the figures approached one another in an evident manner; at a much higher voltage, on the other hand, should the distance between the cathodes and the anodes must be increased accordingly. The. discharge is usually in a relatively small space between the cathode and anode limited and generally offers the same appearance as an usually open one Electric arc. Also, the electrical characteristic is the same as that of one Bow, d. H. an increase in the current produces an almost imperceptible, instantaneous one Voltage change. However, since an increase in the current increases the gas pressure, -so is the increase in current, if it lasts long enough to cause a change in pressure, accompanied by an increase in the voltage drop. The current value of the The voltage between the electrodes must be reduced by increasing the current, since two rectifiers cannot be operated in parallel without special devices to distribute the load.

In the embodiment of Fig. 4, the power supply wires are 5 and 6 of the Cathode 8 connected to a threaded base. The cathode preferably consists of a tightly helically wound tungsten wire from 1/4 to 1/2 mm in diameter. The anode 23 is made of mercury or a Amalgam or any other easily vaporizable metal which the current flows through the wire 24 is fed. Besides the vapor of this metal it is expedient in the vessel brought argon or nitrogen at a pressure of up to 10 mm Hg, whereby the Onset of discharge is facilitated. The dimensions of the device in relation to absorb energy should be chosen so that the device at the temperature works at which the pressure of the mercury vapor is in the vicinity of 5 to z2 cm Hg.

In the circuit according to Fig. 5, the transformer i7 has, in addition to the secondary winding 27, which feeds the anode or cathode through the lines 25 and 26, a second secondary winding 28 with a suitable number of turns, which supplies the heating current for the cathode. In the line 26 is the direct current consumer, z. B. a battery to be charged 2.9, a resistor 30 and a switch 31. When this switch is closed and the switch 2o located in the heating circuit, the current is immediately rectified, namely those alternating half-waves which are negative for the cathode , transmitted through the device while the oppositely directed half-waves are completely suppressed, contrary to the assumption, which one might easily feel tempted to believe, that the mercury mass 23 easily becomes a cathode. The mercury vapor generated by the generated heat prevents sputtering of the cathode to such an extent that the useful life of such a device is about 1,000 hours. The mercury vapor condenses on the vessel walls and returns to the anode. This circuit removes heat from the anode and prevents its overheating and the passage of current during the half-waves during which the anode is negative.

To rectify both half-waves of the alternating current, you can also two unidirectional devices are combined, as shown in Fig. 6. from the two discharge vessels i and i 'each has a hot cathode 8 and one Mercury anode 2j. The cathodes are connected to the external terminals of two inductors 32 and 33 connected, which, connected in series, parallel to the Rectifiers are connected to the network. The anodes 23 are on the power consumer 29 and a choke coil 34 connected to the middle terminal of the choke coils 32 and 33. The rectified current flowing in the center conductor during each half-wave becomes made more uniform by the choke coil 34. The heating current will be for everyone Rectifier of a few additional turns of the associated choke coil 32 and 33 delivered.

After the start of normal discharge, the heating current of the Cathode must be switched off, as this is sufficiently hot due to the discharge is held. It is more expedient, however, to keep the heating current closed hold and heat the cathode to a slightly higher temperature than for emission a number of electrons is required that is sufficient to conduct the discharge, as this increases the service life, as mentioned. Since the anode restores itself in the last-described exemplary embodiments, so is the service life of such a rectifier is only due to the sputtering of the cathode limited and for this reason the use of a rather strong thread as a cathode displayed. But if the wire is chosen to be unnecessarily strong, it requires one greater heating current and the efficiency is worsened. Therefore recommends the use of a tungsten wire about 1/4 to 1/2 mm in diameter, such as was mentioned.

Claims (3)

PATENT CLAIMS: e.g. Rectifier with hot cathode made of tungsten or another metal that can withstand a temperature of at least 2ooo ° C by filling with nitrogen, argon or mercury vapor at such a high gas pressure (a few millimeters to a few centimeters Hg) to prevent sputtering of the cathode or is significantly reduced. 2. Rectifier according to claim i, characterized in that that one of the other gases specified in claim i is added to the mercury vapor will. 3. Rectifier according to claim i or 2, characterized by an anode Mercury.