DE616284C - Measuring device for direct measurement of the average arc drop in metal vapor apparatus - Google Patents

Description

Measuring device for direct measurement of the mean arc drop at Metal vapor apparatus For operational measurement of the arc waste from Rectifiers, etc., have heretofore been given two methods. The one is based on -the charging of a capacitor, with the interposition of an auxiliary rectifier tube to keep away the recurring reverse voltage between an anode and the cathode of the rectifier to be examined is switched; however, it is only suitable for measuring the peak value of the arc voltage. The other method is one wattmetric, in which the current coil of the wattmeter in the course of an anode line and the voltage coil between the associated anode and the cathode of the to be investigated rectifier is connected, and where the voltage coil through a suitably switched rectifier tube in front of the recurring reverse voltage can be protected. This second method is suitable for measuring the wattmetric Average value of the arc voltage, but does not allow a direct display of the Amount of volt, since one still has to divide the amount of watts by the mean value of the Anode current has to be carried out subsequently. Also, this method is first Can only be used for small DC currents, since you cannot easily use a current transformer can switch on, as it is known that these only transform the alternating component of the anode currents would. Circuits have been specified that bridge these difficulties, so z. B. by using a current transformer with two feedthroughs, the repeal polarized opposite to the direct current magnetization in the course of two different Anode leads lie; but the practical implementation of this measuring method In large rectifiers with permanently installed anode lines, they are usually hardly surmountable Obstacles.

The invention is an arrangement that the mean arc drop without measuring the effort mentioned and the further essential advantage has to enable a direct display of the voltage of the arc voltage. The essence of the invention results from what is shown in principle in Fig. R Embodiment. The arrangement consists of three rectifier tubes G1, G2 and Gs, a resistor R divided in the middle and a moving-coil voltmeter V, which are switched in the manner indicated and on two consecutive ones Anodes Al and AZ and connected to the cathode K of the rectifier to be examined are.

The mode of operation of the arrangement is as follows: It is initially assumed that the arc voltages of the two anodes are equal to one another, have the constant value EL during the associated burning time and run as shown in FIG. 2. Let the burning time of each anode current be expressed in terms of an angle where p is the phase number of the rectifier and u means the period of overlap of the anode currents. The arc drop of the rectifier tubes is EG. As long as the anode A burns alone, the tube G1 is ignited. Then lies between the points a and b of the resistance h, i.e. left practically also between the points a and c and thus the voltage EL-EG at the voltmeter h. Ignites after the time has elapsed also the anode A2, so the tubes G2 and G3 ignite, so that the voltage on the resistor and on the voltmeter collapses. If the anode A1 goes out after a further time u, the tubes G2 and G3 remain ignited and the voltage at the voltmeter remains zero again. The voltmeter therefore only integrates via the. fixed amount of time independent of ü namely the mean voltage Ev on the voltmeter With given EG and p values, the voltmeter can be calibrated in EL values.

If the arc voltage is not constant over the burning time, then the resulting measurement error can largely be eliminated if the connections of the anodes A1 and A2 commutates and averages the two readings.

Is like B. with six- and twelve-phase rectifiers with extended anode burning time the time small compared to u, the accuracy of the measurement can be increased if, in place of two consecutive anodes, e.g. B. an anode and the next but one, etc. connects to the measuring arrangement.

If the rectifier to be examined is a grid-controlled one, then must -the rectifier tubes are also controlled in the same way.

Claims (3)

PATENT CLAIMS: i. Measuring device for direct measurement of the average arc drop in metal vapor apparatus, characterized in that a combination of rectifier tubes so between the cathode of the metal vapor apparatus and two of its temporarily simultaneously burning anodes is connected, that is measured from the mean value of the arc drop from the beginning of the burning of the first anode to the extinction of the second anode, the Average value of the arc drop, measured during the entire burning time of the first or the second anode, is electrically subtracted. 2. Arrangement according to claim i, characterized in that both anodes (Al, A2) of the metal vapor apparatus with the anode j e of a rectifier tube (0l, 0.3) are connected, the cathodes of which each connected to the cathode (K) of the metal vapor apparatus via a resistor are that the anode of a rectifier tube (G3) with the anode of a third Rectifier tube (G2) is connected, its cathode to the cathode of the other Rectifier tube (GI.) Is connected; and that that is the mean value of the arc drop -displaying Voltmetex to the cathodes of the first two rectifier tubes (GI, G3) is connected. 3. Arrangement according to claim i and 2, characterized in that that facilities are provided through which the connections of the measuring device to the both anodes of the metal vapor apparatus can be interchanged. q .. Arrangement according to Claims 1 to 3, characterized in that in the case of grid control of the metal apparatus to be examined the rectifier tubes of the measuring device in the in the same sense as that of the metal steam apparatus.