DE487803C - Induction counter - Google Patents

Description

Induction meter Any induction meter that is used to measure energy a single-phase or multi-phase AC circuit at a specific one normal voltage indicated on the meter plate is also still usable, when the voltage of the AC circuit is small amounts from this normal Voltage deviates. Usually, however, the counter information is incorrect, the greater the deviation of the tension from its normal, the greater the degree Values is. The legal provisions about the allowable size of this error therefore indirectly also set the limits of a range of permissible stresses, des so-called voltage measuring range, fixed.

The voltage measuring range can also be increased by the conditions be limited so that the voltage winding does not overheat, the armature must not have an excessively high speed of rotation.

In practice there are cases where a counter is not just one Voltage measuring range, but should have two or more such ranges. As an an example the case is cited that a powered from its own control center with zzo volts Distribution network later connected to a larger network that is fed with 150 volts shall be. In this case, a meter is required, which is set up at the place of use can be changed by simply adjusting a part so that the normal Voltage once = so volts, the other time = 50 volts, the voltage measuring range once about xoo to mo volts, the other time about 135 to 165 volts.

Various methods have been proposed to arrange an induction counter in this way. According to one of these proposals, the voltage winding of an induction meter calculated for the highest normal voltage E is used for k + r voltage measuring ranges whose normal voltages ei, e2. . . ., eh- are provided with k branches in such a way that the numbers n " n2 ...., nk of the turns, which lie between the start of the voltage winding and the branches, to the number of turns N of the entire winding in the proportions stand. The wire thickness in the parts into which the winding is divided by the branch points is selected differently in such a gradation that the ratio between the ohmic resistance and the inductance in all parts of the winding that lie between its beginning and one of the branches, is the same as for the whole winding. This ensures that the exact phase relationship between the motor-driven voltage field and the main current field, which is required for precise measurement in the case of an inductive load, is retained when one changes from one voltage measurement range to another. In the practical application of this method, one encounters an inconvenience for the reason that the fine wires for voltage windings of induction meters are not available in a sufficient number of types with sufficiently finely graduated diameters. In most cases, the right wires will have to be specially produced if one does not want to be satisfied with an imperfect design, when using wire types that do not exactly match.

The invention aims to avoid this inconvenience as follows Ways: The whole voltage winding is made from the same type of wire and provided with branches in the manner indicated. At these junctions and at the end of the winding are connected to series resistors, which are graded so that that the relationship between the ohmic resistance and the inductance of the voltage circuit, which lies between the beginning of the winding and the free end of a series resistor, is the same. You still have the freedom, the series resistance of the first, the Any branch at the beginning of the winding, in particular any small, also to choose zero, or in other words, this branch without To let series resistance. In the case of a counter for two voltage measuring ranges, i.e. for k = z, then only the end of the winding receives a series resistor.

This method offers advantages in that the wire only consists of one type of wire It is easier to produce existing voltage winding that you can use the series resistors can be built from any resistance wire and can be precisely matched with ease.

Claims (1)

PATENT CLAIM: z. Induction counter with which to achieve several Voltage measuring areas provide the voltage winding with at least one branch and that of the various voltage measuring ranges in the voltage circuit of the meter contained ohmic resistances are balanced so that the ratio between the ohmic resistance and the inductance of the voltage circuit for all voltage measuring ranges is the same, characterized in that special series resistors for this adjustment are provided to the branches and to the end of the known per se Way connected voltage winding made entirely of the same wire are such that the one closest to the beginning of the voltage winding is the lowest Voltage measuring range is the branch to be used without a series resistor. a. Induction counter according to claim z for two voltage measuring ranges, characterized in that only on a series resistor is connected to the end of the voltage winding.