DE518421C - Process for the manufacture of rectifiers for alternating current - Google Patents

Description

The invention relates to a rectifier for alternating current with rectifier elements from sulfur metal compounds and with the application of an electric current for treatment the rectifier elements.

According to the invention, the direct, that is, without the interposition of Auxiliary materials touching electrodes of the Rectifier an opposite electrical current to the later rectified current Electricity passed to make the electrodes suitable for rectifying strong currents. In this case, the one passed through the rectifier to bring about the rectifier effect To choose current stronger than that then passed through the rectifier Operating current, as it is known per se for other processes. The tension of the The preparation current is increased until the spark occurs and the treatment interrupted when the sparking disappears. When sparking starts, the resistance increases the rectifier elements against current

* 5 flow suddenly, in such a way that the current flows through becomes practically zero. If the tension were to be increased further, the resistance would decrease again. In opposite Direction, the current resistance of the rectifier prepared in this way is extraordinary small amount. It turns out that the effects occur particularly advantageously when brass is used as a pole of the rectifier predominantly zinc content or an aluminum alloy is used.

When heated, a mechanical connection is created between the two contact materials, so z. B. between the brass electrode and the lead luster electrode. But even if this mechanical connection is destroyed the rectifying effect remains considerable compared to the original state stronger. Maintaining the mechanical connection is therefore advantageous because it ensures that the treated areas really interact with one another stay in touch. When using the rectifier, the usual one is advantageous Bridge circuit used, according to which four rectifiers are connected against each other or in parallel are.

In known processes for the production of rectifiers were on the electrodes by chemical treatment, possibly with the use of electric current, oxide membranes and sulphide membranes produced. So were z. B. a copper sulfide electrode and an aluminum electrode after insertion ■ a layer of water pressed against each other and then an electrical one through these electrodes Electricity is sent through it to create a layer of aluminum oxide on the aluminum surface to create. With the new process, however, rectifiers are considerably longer Lifetime and greater efficiency achieved. First of all are the new rectifiers also insensitive to considerable warming in the company.

, The drawing shows an exemplary embodiment of the subject matter of the invention.

Fig. Ι shows schematically. > one of the invention appropriate rectifier.

Fig. 2 shows four such rectifiers in a bridge circuit.
In the rectifier according to Fig. Ι, α is a hard-drawn brass wire with a predominant zinc content, b is a piece of lead gloss. The brass wire is, for example, 0.4 mm thick. If a direct current, the voltage of which is variable from the consumer by a high-resistance resistor between 2 and 12 volts, is applied with the positive pole to the brass wire and the negative pole to the galena, it turns out that when the voltage is increased up to about 5 volts an ammeter connected to the circuit, which has shown increasing current up to 0.7 amps in proportion to the increase in voltage, suddenly begins to fluctuate at 5 volts. At the same time, small sparks appear at the connection point and also higher up on the brass wire. Both phenomena disappear when the polarity is reversed. If the polarity is reversed again, i.e. the positive pole is placed on brass and the negative pole on galena, the sparks reappear. It is expressly pointed out that the polarity reversal just mentioned is only given for the sake of understanding, but is not necessary for the course of the procedure. After a while, the sparks will disappear. The ammeter shows smaller and smaller deflections during the spark formation and finally drops to almost zero when the spark formation ceases. In the experiment, a current flow of 0.02 amp resulted in this condition. In contrast, when the polarity is reversed, i.e. when the negative pole is applied to brass and the positive pole to lead gloss 1.2 amps. This phenomenon, i.e. an excellent rectifier effect, is retained as long as the current is not increased above the current strength used for spark formation.

+5 When using larger wire sizes the current strength required to achieve the effect described above increases and thus the later load capacity of the rectifier.

According to the treatment described above, the brass wire is firmly connected to the lead luster.

If the current strength is increased beyond the strength at which the spark formation occurs shows, the wire starts to glow strongly and the rectifying effect disappears; such an increase is therefore to be avoided.

The rectifier made using switchable direct current can easily be used for rectifying alternating current, but, as mentioned above, the operating current is advantageously kept lower than the preparation current, otherwise the efficiency will gradually decrease. In order to rectify both phases of the alternating current, the bridge circuit shown in Fig. 2 can be used, in which e and / represent the alternating current connections, c and d represent the direct current connections.

Claims (6)

Patent claims: i. Process for the production of rectifiers for alternating current with rectifier elements made of sulfur metal compounds using an electric current to treat the rectifier elements, characterized in that the rectifier electrodes which are in direct contact with each other, i.e. without the interposition of auxiliary materials, generate an electrical current opposite to the later rectified current Current is passed to make the electrode suitable for rectifying strong currents. 2. A method for producing rectifiers according to claim 1, characterized in that that the current passed through the rectifier to bring about the rectifying effect is stronger is than the operating current then passed through the rectifier. 3. The method according to claim 2, characterized in that is increased at -the pre-treatment of the rectifier, the voltage of the current preparation until the occurrence of the spark and the loading _ i act upon the disappearance of the spark interrupted. 4. Rectifier, produced by the method according to claim 1 to 3, characterized characterized in that brass with a predominant zinc content is used as a pole of the rectifier is used. 5. Rectifier, produced by the method according to claim 1 to 3, characterized characterized in that an aluminum alloy is used as a pole of the rectifier will. 6. Rectifier, produced by the method according to claim 1 to 3, characterized by a mechanical one achieved by heating the contact points Connection of the electrodes. 1 sheet of drawings