DE1808620A1 - Holding device for start-up adjustment for multi-phase induction electricity meters - Google Patents

Description

Holding device for start-up adjustment in multi-phase induction electricity meters Induction electricity meters are known to be obtained to compensate for the inevitable Bearing and counter friction and the low initial permeability of the electric iron an additional auxiliary torque, the so-called tension propulsion. So on the one hand the counter rotor when the counter is de-energized due to the action of the voltage drive does not rotate and thus, on the other hand, the meter only starts from a certain power load (e.g.

0.5 IN) begins to register, a holding device is used to set the start-up necessary. In general, this holding device consists of a so-called Retaining tongue that is attached to the tension system and part of the magnetic River leads, and from a so-called holding flag, which is on the axis of the counter rotor is attached and by rotating the rotor on the retaining tongue. Since the Holding tongue acts as a small magnet, the holding lug is in the effective area of the Holding tongue held magnetically when the torque of the rotor exceeds the holding torque the holding device does not exceed.

In the case of multiphase induction electricity meters, the retaining tongue is mostly magnetically excited by the tension system of a drive system. The tension falls this drive system in the currentless state of the meter can work together the magnetic fluxes of the voltage systems remaining on voltage or through residual voltage drives cause a disturbance torque that causes the meter to idle leads and thus simulates a non-existent electrical work.

The invention relates to a holding device for starting adjustment at Multi-phase induction electricity meters with one attached to the rotor axis ferromagnetic flag, which is magnetically held in the rest position of the rotor disc will. The invention is based on the object of such a holding device to develop that in the event of any voltage failure in the de-energized state of the Counter and no idling of the counter can occur in any direction of the rotating field can. The holding device according to the invention is characterized in that on the ferromagnetic flag act at least two fixed retaining tongues that are excited by phase-shifted alternating fluxes. By overlaying this Phase-shifted alternating fluxes within the holding device arise in the event of failure from any phase an equal or even greater holding torque than in the presence of all voltages.

Based on the drawing, in which an exemplary embodiment is shown schematically is, the invention is explained in more detail. They show: FIG. 1 the drive system arrangement an induction multiphase electricity meter with the holding device in principle, FIG. 2 shows a section along line 11-11 of FIG. 1 and FIG. 3 shows a vector diagram the phase voltages and partial fluids.

With 1, 2 and 3 the voltage systems are referred to, which together with the power systems 5, 6 and 7 aut two carriers 8 and 9 in known per se Manner, which are attached to a rotor axis 10. On the rotor axis 10, a ferromagnetic flag 16 is attached with two retaining tongues 11 and 12 cooperates, which are connected to the tension bars 1 and 3. The holding tongues ii and 12 are made of ferromagnetic material and carry part of the 4-way fluxes of the voltage systems 1 and 3. Dic ends 13 and 14 def ferromagnetic holding tongues 11 and 12 are bent in the direction of the retaining lug 16 and arranged so that is there an air gap 15? through which the retaining lug 16 can rotate. Through this arrangement the retaining tabs create a magnetic one Shunt circuit with the following flux course: Voltage system 1 as a flux source is driving a flux UI of the total flux over the ferromagnetic tongue 11, 13, the air gap 15, the ferromagnetic tongue 1S, 14 and the iron core of the tension system 3. The return to the voltage system 1 is partly via the air and to the Part about the iron core of the voltage system 2, as indicated by lines. In the same way, the voltage system 3 allows a magnetic flux to act, with Both flows overlap in the air gap 15. If the rotor turns under the action the voltage idle drives or low current load, the retaining flag 11 rotates the air gap 15 and is held magnetically when the torque is less than the holding torque.

Fig. 3 shows the vector diagram of the phase voltages R, S and T, the the voltage systems 1, 2 and 3 excite. The partial flow leads to the phase voltage R by 900 in the phase before, the partial flow QUIII of the phase voltage T by 900 in the phase after.

The resulting flow of the in the air gap 15 is obtained by subtraction of the two flow components {UI and (OUIII and is normally equal to a flow component, as Fig. 3 shows.

In the illustrated embodiment, the holding tongues 11 and 12 are attached to tension systems 1 and 3. Of course, the voltage system 2 must be included in the holding system. The two ferromagnetic tongues 11 and 12 can be interchanged cyclically on voltage systems 1 to 3 or all three tension systems can be provided with similar tongues. Through suitable materials, shape, attachment and flow guidance of the tongues and Corresponding polarity of the voltage systems allows the mutual position of the partial flows can be changed at will. E.g.

at 1800 phase shift between the partial flows the partial flows can be made relatively large compared to the resulting -iuss, so that at Failure of various voltage systems the remaining voltage system with retaining tabs developed a relatively large holding power.

Finally, the retaining tongues can also use their magnetic flux from others Referring to alternating flux sources as the voltage systems, e.g. a motor from ancillary equipment in the counter.

2 claims 3 figures

Claims (2)

Claims 1. Holding device for start-up adjustment in multi-phase induction electricity meters, with a ferromagnetic flag attached to the rotor axis, which is in the rest position the carrier is held magnetically, characterized in that on the ferromagnetic flag (16) at least two fixed retaining tongues (11, 12) act that are excited by phase-shifted alternating currents. 2. Holding device according to claim 1, characterized in that on at least two tension systems (1, 3) each with a retaining lug (11, 12) attached whose opposite ends (13, 14) form an air gap (15), through which the retaining lug (16) rotates. Blank page