DE827381C - Arrangement to achieve a high sensitivity evenly distributed over the armature circumference with integrating comparison devices - Google Patents

Description

For measurements in which one or more? \ IeB variables must be kept at a certain value, it is often more expedient for that Checking the constancy of the measured variables instead of one displaying the instantaneous values Device to use an integrating comparison device. You then need the measurands not to keep exactly constant, but it is enough to regulate them so that the integrating Comparison device shows the same value at the beginning and at the end of the measuring time. These integrating comparison devices are switched and adjusted in such a way that they Do not develop a torque setpoint for the measured variables.

So you can z. B. the symmetry of the voltage triangle of a three-phase system monitor with two integrated measuring devices according to the Ferrari principle, of which each has two E2 drive systems acting in opposite directions on an anchor. The two Drive system pairs are each connected to a different pair of three-phase voltages.

Since one can use such WIeßgeräte the integral of the measured variable deviations from the nominal value for the measuring time to zero, the result is a very high measuring accuracy, which is only limited by the sensitivity of the integrating device is not the same height over the entire anchor circumference.

This is due to inevitable asymmetries in the anchor shape and in the anchor construction traced back.

If the armature is made of sheet metal, then the sensitivity makes itself felt mostly the direction of rolling is noticeable.

The invention has the task of integrating comparison devices of this type according to the Ferraris principle over the entire circumference an even distribution of the bring about high sensitivity. According to the invention, the drive system or systems circularly symmetrical with a large number of poles, for example in the manner of the claw pole shape, built and arranged concentrically to the anchor axis.

Furthermore, according to the invention, the poles of the drive systems in such a way large distance from the anchor edge, so that the action is inevitable In terms of measurement technology, asymmetries of this edge do not affect the functioning of the device Appearance occurs.

The invention is explained in more detail with reference to the drawing (FIGS. I to 3). A drive system (Fig. 2) with two pole wreaths 3 acts on a disc armature 1, 4 a. The poles of the pole ring 3 are formed by a so-called claw design built current drive magnet 5 with a winding 6 that of the pole ring 4 by a voltage drive magnet 7 constructed in the same way with a winding 8. Does it If there is an E2 system, then winding 6 is also connected to voltage. The current poles 3 are against the voltage poles 4, as the development (Fig. 3) shows, offset in a known manner. Successive poles of a wreath each have opposite polarity.

On the shaft g of the anchor l there is another anchor with a Another drive system whose torque at the setpoint of the measured variable is just the torque the first system is in balance. Of course you can, depending on your needs the same wave also affects more than two drive systems.

As a result of the use of many poles in a circularly symmetrical arrangement and i iflge tlcs of the relatively large distance between the pole rims and the disc edge balance out all asymmetries with regard to the torque, so that the comparison device has the same high sensitivity for every anchor position and therefore measurements highest precision allowed. Such comparison devices are mainly for the Testing and calibration of integrating measuring devices of the highest measuring accuracy, that is z. B. of test or calibration meters into consideration.

Claims (2)

PATENT CLAIMS: I. Arrangement to achieve an evenly over the anchor circumference distributed high sensitivity in integrating comparison devices according to the Ferrari principle, characterized in that the drive system or systems (Fig. 2) circularly symmetrical (Fig. I) with a large number of poles (polar rings 3, 4), roughly in the manner of the claw pole shape, built and concurrent with the armature axis (g) are arranged. 2. Arrangement according to claim 1, characterized in that the poles (3, 4) of the drive systems have such a large distance from the anchor edge that the action ullvermei (llicller l'llsvmllletrien the edge on the mode of operation of the device metrologically does not appear.